HAAS SERVICE AND OPERATOR MANUAL ARCHIVE Electrical

HAAS SERVICE AND OPERATOR MANUAL ARCHIVE Electrical
Haas Technical Publications
Manual_Archive_Cover_Page Rev A
June 6, 2013
HAAS SERVICE AND OPERATOR MANUAL ARCHIVE
Electrical Service Manual 96-0284 RevH English January 2010
•
This content is for illustrative purposes.
•
Historic machine Service Manuals are posted here to provide information for Haas machine owners.
•
Publications are intended for use only with machines built at the time of original publication.
•
As machine designs change the content of these publications can become obsolete.
•
You should not do mechanical or electrical machine repairs or service procedures unless you are qualified
and knowledgeable about the processes.
•
Only authorized personnel with the proper training and certification should do many repair procedures.
WARNING: Some mechanical and electrical service procedures can be
extremely dangerous or life-threatening.
Know your skill level and abilities.
All information herein is provided as a courtesy for Haas machine owners
for reference and illustrative purposes only. Haas Automation cannot be held
responsible for repairs you perform. Only those services and repairs that are
provided by authorized Haas Factory Outlet distributors are guaranteed.
Only an authorized Haas Factory Outlet distributor should service or repair a
Haas machine that is protected by the original factory warranty. Servicing by
any other party automatically voids the factory warranty.
Haas Automation Inc.
Mill and Lathe
Service Manual
Electrical
Components
January 2010
96-0284 rev H
Haas Automation Inc.
2800 Sturgis Road, Oxnard CA 93030
Tel. 888-817-4227 Fax 805-278-8561
www.HaasCNC.com
Table of Contents
Safety .................................................................................................................................................................1
General Electrical Troubleshooting ................................................................................................................1
Machine not Running ................................................................................................................................ 1
electRical alaRM tRoubleshooting ........................................................................................................... 2
Line Voltage Adjustments ................................................................................................................................5
ElectRical Connections............................................................................................................................. 5
Fuse Replacement ............................................................................................................................................8
oveRvoltage Fuses .................................................................................................................................... 8
Front Panel ........................................................................................................................................................9
sl-10 Pendant coMPonents access .......................................................................................................... 9
lcd asseMbly RePlaceMent ................................................................................................................... 10
Jog handle ............................................................................................................................................. 11
PoweR on/oFF switches .......................................................................................................................... 12
eMeRgency stoP switch........................................................................................................................... 12
KeyboaRd beePeR .................................................................................................................................... 12
laMP on/oFF switch ................................................................................................................................ 12
switch RePlaceMent ................................................................................................................................ 12
sPindle load MeteR ................................................................................................................................ 13
KeyPad RePlaceMent ................................................................................................................................ 13
seRial KeyboaRd inteRFace RePlaceMent ................................................................................................. 14
Solenoids .........................................................................................................................................................15
tool Release Piston (tRP) aiR solenoid asseMbly (hoRiz & veRt) ........................................................ 15
sPindle lube aiR solenoid ....................................................................................................................... 16
PneuMatic chucK/tuRRet claMP/unclaMP solenoid (lathe) ..................................................................... 17
Smart Amplifier ...............................................................................................................................................17
Smart Vector Drive ..........................................................................................................................................18
PCB Replacement ...........................................................................................................................................20
MicRoPRocessoR asseMbly ....................................................................................................................... 20
Mocon, Video/KeyboaRd, & MicRoPRocessoR ...........................................................................................20
MotoR ContRolleR (Mocon) ................................................................................................................. 20
video/KeyboaRd ....................................................................................................................................... 21
MicRoPRocessoR Pcb (68eco30) .......................................................................................................... 21
inPut/outPut asseMbly ............................................................................................................................ 23
PoweR tRansFoRMeR asseMbly (t1) ......................................................................................................... 23
PoweR suPPly asseMbly .......................................................................................................................... 25
low voltage PoweR suPPly ..................................................................................................................... 25
Rs-232 seRial inteRFace ......................................................................................................................... 26
Spare User M Code Interface .........................................................................................................................27
M Function Relays (M-Fin) ..................................................................................................................... 28
M-Fin discRete inPut .............................................................................................................................. 28
wiRing the Relays ................................................................................................................................... 28
Switches ..........................................................................................................................................................28
Control Memory ..............................................................................................................................................30
Diagnostic Data ...............................................................................................................................................32
discRete inPuts/outPuts (lathe) ............................................................................................................. 32
discRete inPuts/outPuts (Mills) .............................................................................................................. 34
Cable List .........................................................................................................................................................37
96-0284 rev H
© Haas Automation January 2010
Table of Contents
I
PCBs, Cable Locations, and Diagrams .........................................................................................................48
MicRoPRocessoR Pcb ............................................................................................................................. 49
seRvo systeM blocK diagRaM.................................................................................................................. 50
bRushless seRvo aMPliFieR (P/n 32-5550F) ...........................................................................................51
sMaRt aMPliFieR (P/n 93-5550J (30a) 93-3551J (45a)) ....................................................................... 52
systeM blocK diagRaM - high/low voltage ............................................................................................. 53
PoweR Pcb veRsion K/l ......................................................................................................................... 54
oFFice Mill PoweR suPPly ....................................................................................................................... 55
i/o Pcb veRsion w, z, aa, ab ............................................................................................................... 56
discRete inPuts........................................................................................................................................ 59
discRete outPuts .................................................................................................................................... 62
seRial KeyboaRd inteRFace Pcb with handle Jog (34-4241d)................................................................ 65
video & KeyboaRd Pcb w/etheRnet & usb dRive .................................................................................. 68
Mocon Pcb ......................................................................................................................................... 69
Rs-232 PoRt #1 Pcb ............................................................................................................................. 70
wye-delta switch asseMblies ................................................................................................................ 71
M code Relay boaRd............................................................................................................................... 71
hydRaulic Pcb ....................................................................................................................................... 72
tsc MotoR dRive/high PRessuRe coolant Pcb ..................................................................................... 73
haas vectoR dRive unit .......................................................................................................................... 73
Quad aPc ( 32-3078a) Pcb .................................................................................................................. 74
Renishaw tool PResetteR (lathe)............................................................................................................ 74
oPeRatoR Pendant ................................................................................................................................... 75
ciRcuit bReaKeRs ..................................................................................................................................... 76
hoRizontal Machine contRol cabinet wiRing diagRaM............................................................................. 77
veRtical Machine contRol cabinet wiRing diagRaM ................................................................................ 78
lathe contRol cabinet wiRing diagRaM .................................................................................................. 79
Cables ..............................................................................................................................................................80
Alarms ............................................................................................................................................................133
Parameters ....................................................................................................................................................180
PaRaMeteR list ...................................................................................................................................... 180
ballscRew coMPensation (Mills) ........................................................................................................... 227
electRonic theRMal coMPensation ........................................................................................................ 228
sPindle head theRMal coMPensation ..................................................................................................... 228
X-aXis theRMal coMPensation (lathes) ................................................................................................. 228
coMMon abbReviations ........................................................................................................................... 228
II
Table of Contents
96-0284 rev H
© Haas Automation January 2010
SAFETY
RED
WHT
BLK
ON
40
OFF
Install lock-out clasp
and lock with padlock
to secure Circuit
Breaker in the
OFF position.
To avoid possible shock, make sure circuit breakers are appropriately locked off before attempting any
electrical work.
CAUTION! Working with the electrical services required for the machine can be extremely
hazardous. The electrical power must be off and steps must be taken to ensure
that it will not be turned on while you are working with it. In most cases this means
turning off a circuit breaker in a panel and then locking the panel door. However,
if your connection is different or you are not sure how to do this, check with the
appropriate personnel in your organization or otherwise obtain the necessary
help before you continue.
WARNING!
The electrical panel should be closed and the three screws/latches on the
door should be secured at all times except during installation and service. At
those times, only qualified electricians should have access to the panel. When
the main circuit breaker is on, there is high voltage throughout the electrical
panel (including the circuit boards and logic circuits) and some components
operate at high temperatures. Therefore extreme caution is required.
GENERAL ELECTRICAL TROUBLESHOOTING
MACHINE NOT RUNNING
Machine cannot be powered on.
• Check input voltage to machine.
• Check main circuit breaker at top right of electrical cabinet; switch must be at the on position.
• Check overvoltage fuses.
• Check wiring to Power Off button on front control panel.
• Check wiring to Auto Off relay to I/O PCB.
• Check connection between 24V transformer (T5) and K1 contactor.
• Check 24V transformer (T5) bracket has jumper in correct position (measure voltage at main circuit breaker
and connect jumper to corresponding connector on T5 transformer bracket).
• Check I/O PCB.
• Check Power PCB.
96-0284 rev H
© Haas Automation January 2010
Electrical Service
1
Machine can be powered on, but turns off by itself.
• Check Settings #1 and #2 for Auto Off Timer or Off at M30.
• Check alarm history for Overvoltage or Overheat shutdown.
• Check AC power supply lines for intermittent supply.
• Check low voltage power supply for intermittent supply.
• Check wiring to Power Off button on front control panel.
• Check connection between 24V transformer and K1 contactor.
• Check I/O PCB.
• Check Parameter 57 for Power off at E-Stop.
• Check MOTIF or MOCON PCB.
Machine turns on, keyboard beeps, but no LCD/CRT display.
• Check for power connections to LCD/CRT from I/O PCB (LVPS power from Power PCB for 15” monitor).
Check for green Power LED at front of CRT.
• Close doors and zero return machine (possible bad monitor).
• Check video cable from Video PCB to LCD/CRT.
• Check for lights on the processor.
• Replace LCD/CRT.
Machine turns on, LCD works, but keyboard keys do not work.
• Check keyboard cable (700) from Video to SKBIF PCB.
• Check keypad.
• Check SKBIF PCB.
Constant E-Stop Condition (will not reset) (Vertical Machines).
• Check hydraulic counterbalance pressure, low pressure switches, and cabling.
Quad APC trouble shooting
The Quad APC uses an additional PC board to control pallets 3 and 4.
The pallet chain motor receives 160VDC from plug 6A on this board (32-3078A). The PC board receives
power (115V) from the power card, which plugs into P4 on the APC board.
The solenoid for the left, air operated, automatic door plugs into P3; this cable is part of 33-6038A. Pallet 3
and 4 signals are sent through cable 33-1516, which plugs into P1. The cable’s other end plugs into the I/O
board P62.
ELECTRICAL ALARM TROUBLESHOOTING
Axis Drive Fault Alarm
• Blown amplifier - indicated by light at bottom of amplifier when power is on. Replace the fuse in the amplifier.
• Amplifier or MOCON is noise sensitive. If this is the case, the alarm can be cleared and the axis will run
normally for a while.
To check an amplifier, switch the motor leads and control cables between the amplifier and the one next to
it. If the same problem occurs with the other axis, the amplifier must be replaced. If the problem stays on the
same axis, either the MOCON or control cable. The problem could also be the axis motor itself, with leads
either shorted to each other or to ground.
2
Electrical Service
96-0284 rev H
© Haas Automation January 2010
• Amplifier faulting out for valid reason, such as overtemp, overvoltage, or +/-12V undervoltage condition. This
usually results from running a servo intensive program, or unadjusted 12V power supply. Adjust voltage to
correct specifications or replace the power supply.
Overvoltage could occur if regen load is not coming on, but this does not usually happen. The problem could
also be the axis motor itself, with leads either shorted to each other or to ground.
Axis Overload
• The fuse function built into the MOCON has been overloaded. This may be caused by a lot of motor accel/
decels, or hitting a hard stop with the axis. This safety function protects the amplifier and motor. If the current
program is the cause, change the program. If the axis hits a hard stop the travel limits may be set wrong.
Phasing Error
• The MOCON did not receive the proper phasing information from the motors. Do not reset the machine if
this alarm occurs. Power the machine down and back up. If the problem persists, it is probably a broken wire
or faulty MOCON connectors. This problem could also be related to the Low Voltage Power Supply. Check to
see if the LVPS is functioning properly.
Servo Error Too Large
• This alarms occurs when the difference between the commanded axis position and the actual position
becomes larger than the maximum that is set in the parameter.
This condition occurs when the amplifier is blown, is not receiving the commands, or the 320V power source
is dead. If the MOCON is not sending the correct commands to the amplifier, it is probably due to a broken
wire, or a Phasing Error that was generated.
Axis Z Fault or Z Channel Missing
• During a self-test, the number of encoder counts was found to be incorrect. This is usually caused by a noisy
environment, and not a bad encoder. Check all shields and grounds on the encoder cables and the motor
leads that come into the amplifiers. An alarm for one axis can be caused by a bad grounding on the motor
leads of another axis.
Axis Cable Fault
• During self-test, encoder cable signals were found to be invalid. This alarm is usually caused by a bad cable,
or a bad connection on the motor encoder connectors. Check the cable for any breaks, and the encoder
connectors at the motor controller board. Machine noise can cause this alarm, although it is less common.
Alarm 101, “MOCON Comm. Failure”
• During self-test of communications between the MOCON and main processor, the main processor does not
respond, and is suspected to be dead. This alarm is generated and the servos are stopped. Check all ribbon
cable connections, and all grounding. Machine noise can also cause this alarm, although it is less common.
Alarm 157, MOCON Watchdog Fault
• The self-test of the MOCON has failed. Replace the MOCON.
Alarm 212, Program Integrity Error/Alarm 250, Program Data Error
• If a program has been corrupted in the system or a corrupted program has been loaded into the machine,
a Program Data Error (250) or Program Integrity Error (212) might occur. This occurrence can be recognized
by an exclamation point (!) next to a program when turning to the list program page. Following is the common
procedure to perform when this happens.
1. Save all programs to disk except the program with the exclamation point error signal. The exclamation
point (!) indicates the program that is corrupt. This will be your back-up disk to reload the programs into the
machine.
2. Delete all the programs. This should delete all the programs including the one with the “!” error signal.
3. If the program with the exclamation point (!) does not erase then the control needs to be initialized.
96-0284 rev H
© Haas Automation January 2010
Electrical Service
3
4. If the machine still has the program with the exclamation point or the control now refuses to load a good
program, it may be necessary to clear memory and reload software.
5. If problem persists, replace main processor board.
Alarm 261, Rotary CRC Error (Horiz & Vert)
This alarm is normally the result of an incomplete software installation. To correct this error:
1. Press Emergency Stop.
2. Turn Setting 7 to OFF.
3. Go to Setting 30 and select HRT210. Make note of this and all following changes.
4. Go to Parameter 43 and change the first bit from 0 to 1.
5. Go to setting 30 and select HRT310.
6. Go back to Parameter 43 and change the second bit from 0 to 1.
7. Now reverse the changes you have made.
8. Cycle power to the machine. The alarm will now be cleared.
If the alarm persists, repeat the above steps before calling for assistance.
Alarm 354, Aux Axis Disconnected (Lathe)
When this alarm is generated, do not press Reset. Turn Setting 7 Off. Enter Debug mode, then view the
Alarms/Messages page. On the Messages page, a code will appear similar to WO1. The list of codes and
their descriptions follows :
4
WO1
Power was just turned on or failed. Check the ribbon cables from the Aux Axis PCB to the processor for correct routing. Check for communication problems between the processor and the Aux
Axis PCB.
WO2
Servo following error too large. Check the encoder for contamination or dirt. Check for an
intermittent connection at both ends of the motor cable.
WO3
Emergency Stop. The E-STOP button was pressed, or an E-STOP condition occurred.
WO4
High load. Check for binding in the tool changer gearbox and motor. Rotate the carousel by hand
and feel for any binding. Make sure the toolholders are the correct weight.
WO5
Remote RS-232 commanded off. Check the ribbon cable and the voltage to the Aux Axis PCB.
Check for 115V AC (minimum) to the Aux Axis PCB from the main transformer. Check the fuse
holder and the fuse that is protecting this circuit.
WO6
Air or limit switch or motor overheat. Check that the motor is not hot. Check for any binding in the
motor. Check for overweight tooling.
WO7
Z channel fault. Either the encoder or the cable is bad. Change the encoder first, as it is easier to
change than the cable. If the problem persists, change the cable.
WO8
Over-current limit, stalled or PCB fault. Check for binding in the tool changer gearbox. Make sure
the belt is not too tight. Ohm out the motor cable, checking pins G to F (should be open), G to H
(should be open), and F to H (should read between 2.5 and 5 ohms). Check all the connections
on the Aux Axis PCB and motor cable.
WO9
Encode ES. Z channel is missing. Bad encoder or cable. See WO7.
WOA
High voltage. Check the incoming voltage to the Aux Axis PCB. Incoming voltage must be 115V
AC. See WO5.
WOB
Cable fault. Check the cable from the motor to the Aux Axis PCB. Check for loose connections at
each end.
Electrical Service
96-0284 rev H
© Haas Automation January 2010
LINE VOLTAGE ADJUSTMENTS
Please read this section in its entirety before attempting to adjust the line voltage.
Tools Required: Large flat tip screwdriver, Digital voltmeter
NOTE: The machine must have air pressure at the air gauge, or a “Low Air Pressure” alarm
will be present on power up.
Low Voltage Power Supply
T5 Transformer
MOCON-2
(if equipped)
LCD Video/Floppy
MOCON-1
3-Phase Breaker
Power PCB
Processor
Power Amplifiers
X, Y, Z, A, B & PC
Optional Servo
Tool Changer Amp
Haas Vector Drive
Wye-Delta Contactors
(underneath)
SERVO DRIVE
ASSEMBLY
I/O Board
Single Axis Brake PCB
(if so equipped)
Transformer
Control Cabinet General Overview
ELECTRICAL CONNECTIONS
Ground
Line
Ouput
Power
L1
L2 L3
Input
Power
24 TB2
0V
OU
T
DA
Main
Circuit
Breaker
48
8-4
58
NG
ER
V
45
7-4
26 29V
0-2
44
V
O
INC
!!!
MIN
G
LIN
EV
42
8-4
24 03V
3-2
40
27
2-3
V
LT
AG
HIG
22 77V
E TA
6-2
PS
HV
11 376
(74,
V
-3
75
21 54V
OL
, 76
0-1
)
12 TB1
TA
95
0V
V
GE
OU
T
DA
NG
ER
!!!
O
1. Place the main circuit breaker in the Off position and hook up the three power lines to the terminals on top
of the main circuit breaker at the upper right-hand side of the electrical panel. Connect the separate ground
line to the ground bus to the left of the terminals.
NOTE: Ensure service wires go into terminal-block clamps. (Do not miss clamp and tighten
screw. Connection looks fine but machine runs poorly - servo overloads.) To check,
pull on wires after screws are tightened.
96-0284 rev H
© Haas Automation January 2010
Electrical Service
5
2. After the line voltage is connected to the machine, make sure that main circuit breaker is off. Turn on the
power at the source. Using an accurate digital voltmeter and appropriate safety procedures, measure the
voltage between all three pair phases at the main circuit breaker and write down the readings. The voltage
must be between 195 and 260V (360 and 480V for high voltage option).
NOTE: Wide voltage fluctuations are common in many industrial areas; you need to know
the minimum and maximum voltage which will be supplied to the machine while it is
in operation. U.S. National Electrical Code specifies that machines should operate
with a variation of +5% to -5% around an average supply voltage. If problems with
the line voltage occur, or low line voltage is suspected, an external transformer may
be required. If you suspect voltage problems, the voltage should be checked every
hour or two during a typical day to make sure that it does not fluctuate more than
+5% or -5% from an average.
CAUTION! Make sure the main circuit breaker is set to off and the power is off at the supply
panel before changing the transformer connections. Make sure that all three
black wires are moved to the correct terminal block and are tight.
3. Check the connections on the transformer at the bottom-right corner of the rear cabinet. The three black
wires labeled 74, 75, and 76 must be moved to the terminal block triple which corresponds to the average
voltage measured in step 2 above. There are four positions for the input power for the 260V transformer and
five positions for the 480V transformer. The labels showing the input voltage range for each terminal position
are as shown in the previous illustration.
4. Transformer T5 supplies 24VAC used to power the main contactor. There are two versions of this
transformer for use on 240 and 400V machines (32-0964B and 32-0965B, respectively). The 240V
transformer has two input connectors located on the transformer bracket, which allow it to be connected
to either a 221-240V range or 180 to 220V range. Users that have 180-240V input power should place the
jumper on the appropriate connector.
The 400V transformer has three input connectors located on the transformer bracket, which allow it to be
connected to either a 441-480V range, 381-440V range or 340-380V range. Users with the External High
Voltage Option should place the jumper on the connector marked with the appropriate input voltage. Failure to
place the jumper on the correct input connector will result in either overheating of the main contactor or failure
to reliably engage the main contactor.
A jumper must also be placed on the plate covering the T5 transformer, Measure voltage at the main circuit
breaker and connect the supplied shorting plug to the corresponding connector on the T5 transformer plate.
5. Set the main circuit breaker to ON and check for evidence of problems, such as the smell of overheating
components or smoke. If such problems are indicated, immediately set the main circuit breaker to OFF and
call the factory before proceeding.
T5 Transformer
441-480V
221-240V
Main
Circuit
Breaker
381-440V
180-220V
T5 24VAC
WARNING:
MEASURE VOLTAGE AT MAIN
CIRCUIT BREAKER AND CONNECT
SUPPLIED SHORTING PLUG TO
CORRESPONDING CONNECTOR
ON THIS TRANSFORMER
340-380V
6
Electrical Service
96-0284 rev H
© Haas Automation January 2010
WARNING!
Through the Spindle Coolant (TSC) pump is a three phase pump and must
be phased correctly! Improper phasing will cause damage to the TSC pump
and void the warranty. Refer to the TSC start up section if your machine is
equipped with TSC.
6. After the power is on, measure the voltage across the bottom terminals on the main circuit breaker. It
should be the same as the measurements where the input power connects to the main circuit breaker. If there
are any problems, check the wiring.
7. Apply power to the control by pressing the Power On switch on the front panel. Check the high voltage
buss on the Vector Drive (pin 2 with respect to pin 3 on the terminal bus at the bottom of the drive). It must be
between 310 and 360V. If the voltage is outside these limits, turn off the power and recheck steps 2 and 3.
If the voltage is still outside these limits, call the factory. Next, check the DC voltage displayed in the second
page of the Diagnostic data on the display screen. It is labeled DC BUS. Verify that the displayed voltage
matches the voltage measured at pins 2 and 3 of the Vector Drive +/- 7V DC.
If the displayed voltage exceeds the measured voltage by 12 volts or more, install a ferrite EMI filter (65-1452)
to the current command cable near its connection to the vector drive. Secure with a cable tie (See photo).
Recheck voltage.
8. Electrical power must be phased properly to avoid damage to your equipment. The Power Supply
Assembly PC board incorporates a “Phase Detect” circuit with neon indicators, shown below (disregard for
single phase machines). When the orange neon is lit (NE5), the phasing is incorrect. If the green neon is lit
(NE6), the phasing is correct. If both neon indicators are lit, you have a loose wire. Adjust phasing by placing
the main circuit breaker in the Off position and swapping L1 and L2 of the incoming power lines at the main
circuit breaker.
PHASE DETECT
(FOR 3 PHASE ONLY)
PASS
NE6
FAIL
NE5
WARNING!
All power must be turned off at the source prior to adjusting phasing.
9. Close the door, lock the latches, and turn the power back on.
10. Remove the key from the control cabinet and give it to the shop manager.
96-0284 rev H
© Haas Automation January 2010
Electrical Service
7
FUSE REPLACEMENT
Please read this section in its entirety before attempting to replace any fuses.
The Power PCB contains two ½-amp fuses located at the top right (FU1, FU3). If the machine is subject to a
severe overvoltage or a lightning strike, these fuses may blow and turn off all power. Replace these fuses only
with the same type and ratings.
15” and Thin Pendant Machines
Size
Fuse Name
Type
5x20mm F1/F3
Fast Acting
Rating (amps)
1
Voltage
250V
Location
PSUP pcb, upper right
OVERVOLTAGE FUSES
WARNING!
The electrical panel will have residual voltage, even after power has been
shut off and/or disconnected . Never work inside this cabinet until the small
green Power On light on the servo amplifiers (servo drive assembly on brush
machines) goes out. The servo amplifiers/servo drive assembly is on the left
side of the main control cabinet and about halfway down. This light(s) is at the
top of the circuit card at the center of the assembly. Until this light goes out,
there are dangerous voltages in the assembly even when power is shut off.
1. Turn machine power off.
2. Place the main circuit breaker (upper right of electrical cabinet) in the off position.
Main
Switch
3. Open the cabinet door and wait until the red charge light on the servo drive assembly goes out before
beginning any work inside the electrical cabinet.
4. The two overvoltage fuses are located beside each other at the upper right of the Power Supply board.
An orange light will be on to indicate the blown fuse(s). If these fuses are blown, check incoming voltage to
ensure it matches the jumper setting on T5.
8
Electrical Service
96-0284 rev H
© Haas Automation January 2010
170
740
GND
GND
+5V
+12V
AMPS
230V IN
NE1
NE3
AUTO OFF/CONTACTOR
TO T5
F3
PHASE DETECT
ON/OFF
IOPCB
GND
GND
+5V
+5V
+12V
GND
SEC
PRI
(FOR 3 PHASE ONLY)
GND
FAIL
71
+5V
P10
CHIP CONVEYOR
TSC COOLANT PUMP
GND
PASS
+12V
GND
-12V
73
1A 250V
F1
73
PRI
NE6
TO T5
NE5
1A 250V
F3
F1
P1
90A
96
ON
115V INPUT
95
94/N
AC GROUND
ON
ON
ON
10A 115V
7A 115V
10A 230V
10A 230V
MAIN
GFI
COOLANT PUMP
TSC COOLANT PUMP
5A 230V
NE1
NE3
CHIP CONVEYOR
XFRMR
90C
CB2
CB6
115V SPARES
90C
90C
90C
90C
CB3
90
3PH 115V TO IOPCB
CB5
CB4
POWER SUPPLY ASSY
930
92A
GFI/
90C
ON
+5V
90C
71
NE5
COOLANT PUMP
GFI
MAIN 115V XFRMR
90A
FAIL
+5V
TS1
90A
GND
+5V
Z1
PASS
NE6
P30
LE1
P18
90A
+12V
GND
GND
+5V
-12V
MOTIF
MOCON 2
+12V
-12V
+5V
Z4
LE3
+12V
GND
+12V
GND
Z3
-12V
LE2
-12V
MCD 2
LV INPUT
GND
+12V
GND
+12V
90A
160
PSUP-K
WORKLIGHT
LOW VOLT PS
SERVO FAN
DELTA-WYE
PROBE PS
MONITOR
SW DOOR FAN
MCD 1
PHASE DETECT
(FOR 3 PHASE ONLY)
COOLANT/TSC
CHIPC 230V
Power Supply Board; Fuse Locations
5. Using a flat tip screwdriver, turn the fuse(s) counterclockwise to remove the fuses. Replace the fuse(s) with
one having the same type and rating (½ amp, type AGC, 250V).
FRONT PANEL
Please read this section in its entirety before attempting to replace any control panel component.
SL-10 PENDANT COMPONENTS ACCESS
The SL-10 pendant door hinges on the left side. Remove the two (2) screws on top of the pendant in order to
open the pendant door.
CAUTION! Do not pinch the cable as the door is closed.
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LCD ASSEMBLY REPLACEMENT
CAUTION! Use an electrostatic discharge (ESD) strap on wrist when working inside the
pendant.
1. Turn the power off and disconnect power to the machine.
2. Remove the screws holding the cover on the back of the operator’s pendant. Take care to hold the cover in
place until all screws have been removed.
3. Disconnect the video out cable (J16) from the SKBIF PC board and backlight cable.
4. Remove the four (4) hex nuts and washers beginning with the bottom, then remove the LCD assembly and
set aside in a safe place.
CAUTION! Do not drop or damage the LCD when removing it from the control panel.
5. Use gloves to avoid getting fingerprints on the new LCD. Position the assembly onto the four bolts (two
each on top and bottom). Place the washers and hex nuts on the bolts to hold in place. Once all washers
have been attached and nuts have been hand-tightened, tighten down completely.
Video Out
to LCD
Pnl
Backlight cable
to inverter board
J13
RS-232 Data
to/from
Microprocessor
J16
Video In
SKBIF
Kybd
Data
In
Power In
Back of Operator’s Pendant
6. Plug the keyboard cables into the new receiver board (P1) and the power supply (TB2). Plug the power
cable into the power supply board (TB1) and attach the green wire to ground. Plug the data cable into the
receiver board (J3).
7. Replace the back cover panel and attach with the four screws previously removed.
Some LCD panel replacement kits include a panel with the inverter and data cables connected to a piggyback
board on the panel itself, under the display shield. To properly connect such a display:
1. Power off the machine and install the new LCD panel in the control pendant. Disconnect the data and
inverter cables from the piggyback board (they are accessible through the rectangular cutouts in the display
shield shown in the following photo).
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Data Cable
Inverter Cable
2. Connect these cables directly to the SKBIF PCB. If the cables that came with the new display are not long
enough, reuse the cables from the old display.
3. Power on the machine and check the display. If the image is blurry, toggle the switches at SW2 on the
SKBIF PCB to correct the problem.
JOG HANDLE
The Jog handle is actually a 100-line-per-revolution encoder, used to move one axis at a time. If no axis
is selected for jogging, turning the handle has no effect. When the axis moved reaches its travel limits, the
handle inputs will be ignored in the direction that would exceed the travel limits. Parameter 57 bit 0 can be
used to reverse the direction of operation of the handle.
Jog Handle Replacement
1. Turn the machine power off.
2. Remove the screws holding the cover on the back of the pendant. Take care to hold the cover in place until
all screws have been removed.
3. Unplug the cable leading to the jog handle encoder.
Blank pin goes to this
side of connector
B
A
YEL BRN
+5V
BLK
A
RED
GND
WHT
Jog Handle Encoder
Jog Handle Removal
B
GRN
+5V
RED
GND
WHT/
RED
A
WHT/
YEL
B
WHT/
BRN
Jog Handle Wiring Diagram
4. Using the 5/64” allen wrench, loosen the two screws holding the knob to the control panel and remove.
5. Remove the three screws holding the jog handle encoder to the control panel and remove.
6. Replacement is reverse of removal. Important! The blank pin side of the connector must face as shown
when reconnecting; otherwise, damage may occur to the machine.
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POWER ON/OFF SWITCHES
The Power On switch engages the main contactor. The On switch applies power to the contactor coil and the
contactor thereafter maintains power to its coil. The Power Off switch interrupts power to the contactor coil
and turns power off. Power On is a normally open switch and Power Off is normally closed. The maximum
voltage on the Power On and Power Off switches is 24V AC and is present any time the main circuit breaker
is on.
EMERGENCY STOP SWITCH
The Emergency Stop switch is normally closed. If the switch opens or is broken, servo power is removed
instantly. This will also shut off the turret, spindle drive, and coolant pump. The Emergency Stop switch will
shut down motion even if the switch opens for as little 0.005 seconds. Note that if Parameter 57 bit 3 is set to
1, it will cause the control to be powered down when Emergency Stop is pressed.
You should not normally stop a tool change with Emergency Stop as this will leave the tool changer in an
abnormal position that takes special action to correct
If the lathe turret or mill tool changer (T/C) becomes jammed, the control will automatically come to an alarm
state. To correct this, push the Emergency Stop button and remove the cause of the jam. Push the Reset key
to clear any alarms. Push Zero Return and the Auto All Axes to reset the Z-axis and turret or T/C. Never put
your hands near the turret or T/C when powered unless E-Stop is pressed.
KEYBOARD BEEPER
There is a beeper under the control panel that is used as an audible response to pressing keyboard buttons
and as a warning beeper. The beeper is a one kHz signal that sounds for about 0.1 seconds when any
keypad key, Cycle Start, or Feed Hold is pressed. The beeper also sounds for longer periods when an autoshutdown is about to occur and when the “Beep at M30” setting is selected.
If the beeper is not audible when buttons are pressed, the problem could be in the keypad, keyboard interface
PCB or in the speaker. Check that the problem occurs with more than one button and check that the beeper
volume is not turned down or disconnected. If lamps do not turn on, check the GFCI plug.
LAMP ON/OFF SWITCH
An on/off switch is supplied for the work lamp. It is located on the side of the operator’s pendant. The lamp
uses 115V AC taken from P19 on the main power distribution board.
SWITCH REPLACEMENT
1. Turn the machine power off. Remove the screws holding the cover on the back of the pendant. Take care to
hold the cover in place until all screws have been removed.
2. Disconnect all leads to the switch connectors. Ensure all leads are properly marked for reconnecting later.
3. Unscrew the two small set screws, one on top and one on the bottom, and turn the switch counterclockwise
to loosen. Separate from the front portion and pull out.
4. To replace, screw the front and rear portions together (reverse of removal) and tighten down the two small
set screws when the switch is properly positioned.
NOTE: The Power On, Power Off, and Emergency Stop switches must all have the connectors
on the bottom of the switch.
5. Reconnect all leads to the correct switch.
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SPINDLE LOAD METER
Load meter measures load on spindle motor as a percentage of rated continuous power of motor, with a slight
delay between a load and actual meter reflection. The eighth A-to-D input also provides a measure of spindle
load for cutter wear detection. Second page of diagnostic data displays % of spindle load. Meter should
agree with display within 5%. Spindle drive display #7 should also agree with load meter within 5%. There
are different types of spindle drives used in the control, all are equivalent in performance but are adjusted
differently.
Spindle Load Meter Replacement
1. Turn the power off and disconnect power to the machine. Remove the screws holding the cover panel on
the back of the pendant. Take care to hold the cover panel in place until all screws are removed.
2. Disconnect the two leads at the back of the spindle load meter assembly. Ensure the two leads are properly
marked for reconnecting later.
3. Unscrew the four screws that hold the spindle load meter assembly to the control panel. Take care to hold
the assembly in place until all screws have been removed. Remove the assembly.
4. Installation is reverse of removal. Ensure leads go to the correct location.
KEYPAD REPLACEMENT
1. Turn the power off and disconnect power to the machine. Remove the screws holding the rear cover to the
back of the pendant. Take care to hold the cover in place until all screws are removed.
2. Unplug the keypad’s 24-pin ribbon cable from the Keyboard Interface board.
3. Remove the screws from the front of the pendant. Take care to hold the cover in place until all screws have
been removed. Remove the pieces and set aside in a safe place.
4. Using a flat, blunt tool, such as putty knife, pry the keypad away from the control panel. Pull the ribbon
cable through the opening in the control to remove.
5. To replace, first put the bezel spacer in place and fasten temporarily with screws in the top corners.
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Electrical Service
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Gasket
Front Bezel
Glass
Keypad
Keypad Installation
6. Insert the ribbon cable through the opening in the control panel. Expose the adhesive strip on the back of
the keypad and press it into place in the upper right corner of the keypad recess. Press to the control panel to
mount. Plug the ribbon cable into the Keyboard Interface board, taking care to not bend the pins.
7. Replace the front and rear cover panels and fasten with the screws that were previously removed.
SERIAL KEYBOARD INTERFACE REPLACEMENT
NOTE: Refer to “Cable Locations” for a diagram of this board.
1. Follow all precautions noted previously before working in the control cabinet.
2. Turn the main switch (upper right of electrical cabinet) to the off position.
3. Remove the four screws on the back of the control box, then remove the cover panel. Take care to hold the
panel in place until all screws have been removed.
4. Disconnect all leads to the Serial Keyboard Interface (SKBIF) board. Ensure all cables are properly labeled.
5. After all cables have been disconnected, unscrew the four screws holding the Serial KBIF board to the
control box. Take care to hold the board in place until all screws have been removed. Place the screws and
standoffs aside for later use.
6. Replace the Serial KBIF board, using the four screws previously removed. Starting at the top right, attach
each screw and standoff loosely, until all are mounted, then tighten down.
7. Reconnect all cables to the Serial KBIF board at their proper locations.
8. Verify whether the machine is equipped with either a speaker or a beeper. Align the toggle switches of
Switch 1 on the Serial KBIF board to their appropriate positions. Beeper operation requires that both S1
switches be set to ‘B’; speaker operation requires that both S1 switches be set to ‘S’.
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SOLENOIDS
Please read this section in its entirety before attempting to replace any solenoid assemblies.
TOOL RELEASE PISTON (TRP) AIR SOLENOID ASSEMBLY (HORIZ & VERT)
Removal
1. Turn machine power on and raise spindle head to uppermost position, then turn the power off. Remove air
supply from machine.
2. Remove sheet metal at rear and/or top of machine to access the back of the spindle (Mechanical Service
manual).
3. Disconnect all air lines from the air solenoid assembly (Do not remove fittings). Disconnect the two leads
from the low air pressure sensor.
4. Unscrew the air solenoid assembly from the tool release piston assembly, taking care not disturb the
position of the clamp/unclamp switches. It may be necessary to remove the tool release piston to access the
solenoid assembly.
5. Unplug the wiring leading to the plug marked on the solenoid bracket as “880 from I/O PCB to Solenoid
Valves” and the plug marked “Spare”.
6. Unscrew the air solenoid from the air solenoid assembly. Remove the SHCS holding the assembly to the
bracket and remove the assembly.
Installation
1. Install the new air solenoid. Take care to not disturb the position of the clamp/unclamp switches.
2. Replace air solenoid assembly and attach to bracket with the SHCS previously removed. Tighten securely.
3. Reinstall the tool release piston assembly if removed (see Mechanical Service).
4. Reconnect the two leads to the low air preassure sensor. Reconnect wiring to plugs on solenoid bracket.
5. Ensure all air lines are reconnected to their proper fittings. Reconnect air supply to the machine, and check
for leaks.
6. Replace the sheet metal.
Air Solenoid
Assembly
Motor Shroud
Air Solenoid
Assembly
Sheet Metal
Tray
Low air pressure
sensor
EC
EC
400
Air solenoid
assembly
Check Valve Switch
TRP Solenoid
PreCharge
TSC Solenoid
To TSC
Inlet
Pressure
Switch
Check
Junction
Regulator
Valve
Elbow
TRP
Switch
Check Valve Switch Solenoid
Air Solenoid Assembly
With TSC Feature Added
Basic Air Solenoid Assembly
Locations of EC-300 and EC-400 TRP Solenoids
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Disconnect
all air lines
Disconnect
all air lines
VF-Series Air Solenoid Assembly
Electrical Service
15
SPINDLE LUBE AIR SOLENOID
Removal
1. Turn the machine power off and remove the air supply from the machine.
Pressure Gauge
Spindle
Lube
Solenoid
Lube Line
Lube/Air Panel (Rear View)
Main Air Line
Pressure Switch
Spindle Lube/Air Solenoid Assembly (Top View)
2. a. Lathe: Disconnect the lube line from the spindle lube air solenoid assembly.
b. Mill: Disconnect the air lines from the spindle lube air solenoid assembly.
3. Disconnect the electrical leads from the main air line pressure switch.
4. Lathe: Unscrew the solenoid assembly pressure gauge from the assembly.
5. Unscrew the entire solenoid assembly from the T-fitting.
Installation
1. Reattach the solenoid assembly at the T-fitting.
2. a. Lathe: Replace the pressure gauge on the solenoid assembly and reconnect the lube line.
b. Mill: Reconnect all air lines.
3. Reconnect the electrical leads to the main air line pressure switch.
4. Restore the air supply to the machine.
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PNEUMATIC CHUCK/TURRET CLAMP/UNCLAMP SOLENOID (LATHE)
Removal
1. Turn machine power off and remove the air supply from the machine.
2. Pneumatic Chuck: Disconnect the two air hoses from the pneumatic chuck clamp/unclamp solenoid.
Turret: Disconnect the three air hoses from the turret clamp/unclamp solenoid (see the Turret In/Out
Adjustment), and disconnect exhaust lines.
3. Unplug the solenoid electrical lead (located on the rear of the lube air panel).
4. Remove the two SHCS holding the assembly to the bracket and remove the assembly.
Installation
1. Replace the air solenoid assembly and attach it to the bracket with the two SHCS. Tighten securely.
2. Reconnect the electrical connection to the solenoid at the switch bracket.
3 Reconnect the two (three for Turret) air lines and turret exhaust lines, ensuring that all connections are tight
and do not leak.
4. Restore the air supply to the machine.
SMART AMPLIFIER
The Smart Amplifier has a microprocessor incorporated in the design. This allows the amplifier to detect and
report detailed alarms. The software level necessary to display these new alarms is 15.02A or newer.
The Smart Amplifier is backward compatible to any machine that has a Vector Drive. New Smart Amplifiers
and standard amplifiers may be used in any combination in the machine. However, if the machine does not
have at least 15.02A software or newer the specific Smart Amplifier will not be displayed. The Smart Amplifier
and the standard amplifier use the same Parameters. On non-thin pendant machines, at least two of the
standard amplifiers must be used.
The Smart Amplifier does not have a 12VDC connector, and both the Fault (Red LED) and the Run (Green
LED) are relocated. The 320VDC (H+ and H-) and the X, Y and Z-axis connections are also relocated.
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The smart amplifier will calibrate utilizing the microprocessor that is present in each of the Smart Amplifiers
at power up. When power is applied to the Control Cabinet the Fault (Red LED) will illuminate and stay
illuminated for a short time (approximately 5 seconds), this is called the “A” Phase Calibration. Then both
LEDs will be out for a few seconds; this is called the “B” Phase Calibration. Next the Run (Green LED) will
illuminate, indicating the Smart Amplifier is ready with no faults.
SMART VECTOR DRIVE
The smart vector drive features a microprocessor that allows it to detect and display specific alarms (software
version 15.02A or newer only). It is backward compatible to any machine with a vector drive regardless of
software version; however, the drive-specific alarms will not display in older software. Such alarms will display in the same way as with old-style drives.
Smart vector drives installed in new machines include a cover, and the machines electrical cabinet door is
cut to accommodate it. Service drives are shipped without the cover for installation in older machines. When
replacing a drive in a machine built to accommodate the cover, use the cover from the old drive.
When installing a smart vector drive without the cover, install the cover plate to the front of the vector drive.
When installing with the cover, install the cover plate to the top of the vector drive.
You will also need several cables. Please see 93-32-5558A for the 40 HP drive and 93-32-5559A for the 20
HP drive.
Trouble Shooting
To properly troubleshoot the Vector Drive, use the following questions as a guide:
• What alarms are generated?
• When does the alarm occur?
• Is the Vector Drive top fault light on?
• Is there a fault light on any of the servo amplifiers?
• Does the alarm reset?
• Does the spindle motor turn at all?
• Does the spindle turn freely by hand?
• Have the C-axis parameters been confirmed?
• What is the input voltage to the vector drive unit?
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• What does the DC Bus voltage measure? (320 VDC to 345 VDC)
• Does the DC Bus voltage displayed on the diagnostic page match the measured DC Bus voltage?
All of the questions above must be answered. The DC Bus voltage should be between 320 VDC to 345 VDC
with the machine powered up but not running. If the voltage is not in this range, adjust the taps on the main
line transformer until this voltage range is achieved. There is a possibility the drive is faulty, but low Bus voltage can also be caused by a shorted REGEN load or a shorted amplifier.
If the DC Bus voltage is below 50 VDC and never goes any higher, perform Steps 1-6.
1. With the machine powered up, is the green “POWER-ON” L.E.D. lit? If not, replace the Vector Drive unit.
2. Power down the machine. Disconnect the REGEN load (terminals 1 and 2 on the Vector Drive unit) and
measure the resistance from each wire-to-chassis ground (open) and between the wire leads. The resistance should be 8.6 ohms for machines with 20/15 Vector drives and HT10K mills equipped with 40/30
drives. All other machines with 40/30 drives should measure 6 ohms. If not, replace the REGEN load or
cabling.
3. Disconnect cable 490 at terminals 2 and 3 of the Vector Drive and from the servo amplifiers. With a multimeter in the diode mode, place the red meter lead to the +HV terminal and the black meter lead to the
-HV terminal of each amplifier. The meter should read open.
4. Reverse the leads: Place the red meter lead on the -HV terminal and the black lead on the +HV terminal.
The meter should read .7 ohms in both instances. If not, replace the faulty amplifier.
5. Measure the resistance between terminals 1 and 3 of the Vector Drive. The meter should read greater
than 100K ohms. If not, the Vector Drive is faulty.
6. If the green “POWER-ON” L.E.D. was lit (from Step 2), leave both 490 cables (2 and 3) disconected from
the drive and power up the machine.
a. Does the DC Bus voltage come up? If not, the Vector Drive is faulty.
b. Measure the voltage between terminals 1 and 3. The voltage should be 300 VDC or more. If not, the
Vector Drive is faulty.
If both ‘a’ and ‘b’ check out okay, there is a problem with either the amplifiers or the REGEN load.
If the fault occurs upon acceleration -or- the spindle accelerates slowly -or- the spindle
makes noise, do the following:
7. Disconnect the output cables to the spindle motor. Turn on the machine and press <RESET>. Do not
command the spindle to turn. With a volt meter, measure the DC voltage between each output phase (terminals 9, 10, and 11) to the 320V RTN (terminal 3). The meter should read 165 VDC in each case, else
one phase is faulty.
8. Measure the resistance across the motor wires from phase to phase and from each phase to chassis. The
meter should read .1 ohms phase-to-phase and open phase-to-chassis. If the fault occurs upon deceleration or acceleration just as the spindle reaches its specified speed, or if an overvoltage alarm (119)
occurred, do the following:
9. Disconnect the REGEN load resistors (terminals 1 and 2) and measure the resistance from each wire
lead-to-chassis ground and between the wire leads. The meter should read open lead-toground, and 6
ohms between the leads for machines with 40/30 Vector drives and 8.6 ohms between the leads on machines with 20/15 Vector drives and HT10K mills.
10. Measure the resistance from terminal 1 to terminal 3. If the resistance is less than 100K, the drive is
faulty.
11. With the REGEN load left disconnected, power-up the machine and command a spindle speed of 700
RPM (300 RPM for lathes in high gear). Press <RESET> while monitoring the DC voltage between terminal 1 and terminal 3. The voltage should read 330 VDC and then drop to less than 50 VDC momentarily. If
not, that drive is faulty. If the voltage at RESET was okay and the alarm was resettable, the REGEN load
should be replaced even if the resistance appears to be okay.
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PCB REPLACEMENT
Please read this section in its entirety before attempting to replace any PCBs
MICROPROCESSOR ASSEMBLY
The microprocessor assembly is in the control cabinet at the top left position. It contains three large boards.
They are: Microprocessor, the Video/Keyboard and the MOCON. All three boards of the processor assembly
receive power from the low voltage power supply. The three PCBs are interconnected by a local buss on dual
50-pin connectors. At power-on, some diagnostic tests are performed on the processor assembly and any
problems found will generate Alarms 157 or 158. In addition, while the control is operating, it continually tests
itself and a self test failure will generate Alarm 152.
MOCON, VIDEO/KEYBOARD, & MICROPROCESSOR
WARNING!
The electrical panel will have residual voltage, even after power has been
shut off and/or disconnected. Never work inside this cabinet until the small
red Charge light on the servo amplifiers go out. The servo amplifiers are on
the left side of the main control cabinet and about halfway down. This light
is at the top of the circuit card at the center of the assembly. Until this light
goes out, there are dangerous voltages in the assembly even when power
is shut off.
Ground straps must be used when handling boards.
NOTE: Board arrangement may differ from the order of replacement that follows. Steps for
replacement will only differ in which board may need to be removed before getting
to the necessary board.
MOTOR CONTROLLER (MOCON)
Machines are equipped with a microprocessor-based brushless motor controller board (MOCON) that
replaces the motor interface in the brush type controls. It runs in parallel with the main processor, receiving
axis commands and closing the loop around the axis motors.
In addition to controlling the axis and detecting axis faults, the motor controller board (MOCON) is also in
charge of processing discrete inputs, driving the I/O board relays, commanding the spindle, and processing
the jog handle input. It also controls 6 axes, so there is no need for an additional board for a 5-axis machine.
Four LEDs are used to diagnose MOCON problems:
The RUN” LED will turn on, indicating that Mocon code was found in ROM and is being executed. This LED
will turn off if a processor exception causes the Mocon code to abort execution.
The “STAT” LED indicates the following (Specific to Mocon 11.00 or later software)
a. Continuously ON - Normal status. board passed all power-on tests; no problems encountered
b. Blinks 3 times - Communication with main processor failed
c. Blinks 4 times - Internal ±12V testing failed
d. Blinks 5 times - Internal watchdog circuit failed
e. Blinks rapidly - EPROM CRC failed
The “Halt” LED glows when the board is in use (processing).
The “+5” LED lights when the board has power.
MOCON Board Replacement
1. Turn machine power off and turn the main switch (upper right of electrical cabinet) to the off position.
2. Open the cabinet door enough to safely work on the electrical panel. Wait until the red charge light on the
servo amplifiers (servo drive assembly on brush machines) goes out before beginning any work.
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3. Disconnect all leads to the Motor Controller (MOCON) board, and ensure all cables are properly labeled.
4. After all cables have been disconnected, unscrew the standoffs, taking care to hold the board in place until
all standoffs have been removed.
NOTE: If the Video/Keyboard or Processor boards need replacing, skip the next step.
5. Replace the MOCON board, attaching it to the Video/Keyboard (beneath the MOCON board) with the
standoffs, and reconnect all leads (previously removed) to their proper connections.
6. If a second MOCON board is present, be sure to connect the jumper on the second MOCON board.
VIDEO/KEYBOARD
The Video/Keyboard PCB generates the video data signals for the monitor and the scanning signals for the
keyboard. In addition, the keyboard beeper is generated on this board. There is a single jumper on this board
used to select inverse video. The video PCB connectors are:
P1
J3
J4
J5
J10
Power connector
Keyboard (700)
Address bus
Data
Floppy V+
J11
J12
J13
J14
J15
SPARE
Floppy
Video (760)
RS422 B
RS422 A
Video/Keyboard Replacement
1. Remove the MOCON board as previously described.
2. Disconnect all leads to the Video/Keyboard. Ensure all cables are properly labeled for reconnecting later.
3. After all cables have been disconnected, unscrew the standoffs, taking care to hold the board in place until
all standoffs have been removed.
NOTE: If the Processor board needs replacing, skip the next step.
4. Replace the Video/Keyboard, attaching it to the Processor board with the standoffs.
5. Reconnect all leads (previously removed) to their proper connections.
6. Replace the MOCON board.
MICROPROCESSOR PCB (68ECO30)
The Microprocessor PCB contains the 68ECO30 processor running at 40 MHz, one 128K EPROM; between
1MB and 16MB of CMOS RAM and betwen 512K and 1.5MB of Fast Static RAM. It also contains a dual serial
port, a battery to backup RAM, buffering to the system buss, and eight system status LED’s.
Two ports on this board are used to set the point at which an NMI is generated during power down and the
point at which Reset is generated during power down.
The eight LEDs are used to diagnose internal processor problems. As the system completes power up testing,
the lights are turned on sequentially to indicate the completion of a step. The lights and meanings are:
RUN
Program Running Without Fault Exception. (Normally On) - If this light does not come on, or goes
out after coming on, there is a problem with the microprocessor or the software running in it. Check all
of the buss connectors to the other two PCBs and ensure all three cards are getting power.
PGM
Program Signature Found in Memory. (Normally On) - If this light does not come on, it means that
the main CNC program package was not found in memory, or that the auto-start switch was not set.
Check that Switch S1-1 is on and the EPROM is plugged in.
CRT
CRT/LCD Video Initialization Complete. (Normally On) - If the light does not come on, there is a
problem communicating with the Video PCB. Check buss connectors to ensure it is getting power.
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MSG
Power-on Serial I/O Message Output Complete. (Normally On) - If light does not come on, a
problem exists with serial I/O or interrupts. Disconnect anything on the external RS-232 and retest.
SIO
Serial I/O Initialization Complete. (Normally On) - If this light does not come on, there is a problem
with the serial ports. Disconnect anything on the external RS-232 and test again.
POR
Power-On-Reset Complete. (Normally On) - If this light does not come on, there is a problem with
the Processor PCB. Check that the EPROM is plugged in. Test the card with buss connectors off.
HALT
Processor Halted in Catastrophic Fault. (Normally Dim) - If this light comes on, there is a problem
with the Processor PCB. Check that the EPROM is plugged in. Test the card with buss connectors off.
+5V
+5V Logic Power Supply is Present. (Normally On) - If this light does not come on, check the low
voltage power supply and check that all three phases of 230V input power are present.
There is 1 two-position DIP switch on the Processor PCB labled S1. Switch S1-1 must be ON to auto-start the
CNC operational program. If S1-1 is OFF, the PGM light will remain off. Switch S2-1 is used to enable Flash.
If it is disabled it will not be possible to write to Flash.
The processor connectors are:
J1
Address buss
J5
J2
Data buss
J3
J4
Serial port #1 (for upload/download/DNC) (850) J6
Serial port #2 (for auxiliary 5th axis) (850A)
Power connector
Battery
Processor Board Memory Retention Battery Replacement
Alarm 124 indicates an imminent battery failure. To preserve CMOS RAM contents while the machine is powered off, the 3.3V lithium battery must be replaced within 30 days of the first alarm. To replace the battery:
1. Backup all parameters, settings, programs, offsets, history, and macro variables.
2. Haas kit 32-1010 includes a temporary battery with a jumper connector. Plug this jumper into J6 (68K PCB)
or J15 (Coldfire PCB). This ensures that memory contents are retained during the procedure.
NOTE: Do not remove the existing battery before the backup battery is installed, or remove
the backup before a fresh battery has been installed. This will result in complete
machine memory loss, which cannot be reversed.
3. Properly ground yourself and unsolder the battery from the processor board.
4. Clean the battery contact areas and solder the new battery in place, observing correct battery orientation
(the positive battery connector is marked on the board and circled in the previous photograph).
5. With the new battery in place, disconnect the backup battery jumper.
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Processor Board Replacement
1. Remove the MOCON board, and the Video/Keyboard as previously described.
2. Disconnect all leads to the Processor board. Ensure all cables are properly labeled for reconnecting later.
3. After all cables have been disconnected, unscrew the standoffs, taking care to hold the board in place until
all standoffs have been removed.
4. Replace the Processor board, attaching it to the electrical cabinet with the standoffs, reconnect all leads
(previously removed) to their proper connections, and replace Video/Keyboard and MOCON board.
INPUT/OUTPUT ASSEMBLY
The Input/Output Assembly consists of a single printed circuit board called the I/O PCB.
The I/O PCB also contains a circuit for sensing a ground fault condition of the servo power supply. If more
than 1.75 amps is detected flowing through the grounding connection of the 160V DC buss, a ground fault
alarm is generated and the control will turn off servos and stop.
Relay K6 is for the coolant pump 230V AC. It is a plug-in type and is double-pole. Relays K9 through K12 are
also plug-in types for controlling the tool changer motors.
I/O Board Replacement
1. Follow all precautions noted previously before working in the electrical cabinet.
2. Disconnect all leads to the Input/Output board and move aside for removal. Ensure all cables are properly
labeled for reconnecting later.
3. Remove the board by first removing the twelve screws that fasten it to the cabinet. Take care to hold the
board in place until all screws have been removed.
4. Replace the I/O board, attaching it to the cabinet with the twelve screws previously removed, and reconnect
all leads to the I/O board. Check for any additional jumper settings per I/O release notes.
POWER TRANSFORMER ASSEMBLY (T1)
The power transformer assembly converts three-phase input power (50/60Hz) to three-phase 230V and
115V power. Two transformers are used, depending on the input voltage range. The low voltage transformer
has four input connections to allow for a range of voltages from 195V RMS to 260V RMS. The high voltage
transformer has five input connections and will accept a range of voltages from 354V RMS to 488V RMS.
The 230V is used to power the spindle drive. THe 230V also supplies the power to the vector drive, which
supplies 325V DC power for the axis servo amplifiers. The 115V is used by the video monitor, solenoids, fans
and pumps, in addition to supplying power to the main LVPS used by the control electronics.
The transformer assembly is located in the lower right hand corner of the main cabinet. Besides the high/low
voltage variations, two different power levels are available depending on the spindle motor used. The small
and large transformers have power ratings of 14 KVA and 28 KVA, respectively, and are protected by the main
circuit breaker.
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Electrical Service
23
Ouput
Power
Input
Power
24 TB2
0V
OU
T
DA
48
8-4
58
NG
ER
V
45
7-4
26 29V
0-2
44
V
O
INC
!!!
MIN
G
LIN
EV
42
8-4
24 03V
3-2
40
27
2-3
V
LT
AG
HIG
22 77V
E TA
6-2
PS
HV
11 376
(74,
V
-3
75
21 54V
OL
, 76
0-1
)
12 TB1
TA
95
0V
V
GE
OU
T
DA
NG
ER
!!!
O
.
Polyphase Bank Transformer
Primary Connection To T1
Input power to T1 is supplied through CB1, the main circuit breaker. Three-phase 230 to T1 is connected to
the first three terminals of TB10.
Circuit breaker CB1 protects the spindle drive and shuts off all power to the control. A trip of this breaker
indicates a serious overload problem and should not be reset without investigating the cause of the trip.
Main Contactor K1
Main contactor K1 is used to turn the control on and off. The Power On switch applies power to the coil of K1
and after it is energized, auxiliary contacts on K1 continue to apply power to the coil. The Power Off switch on
the front panel will always remove power from this contactor.
When the main contactor is off, the only power used by the control is supplied through two ½ amp fuses to
the circuit that activates the contactor. An overvoltage or lightning strike will blow these fuses and shut off the
main contactor.
The power to operate the main contactor is supplied from a 24V AC control transformer that is primary fused
at ½ amp. This ensures that the only circuit powered when the machine is turned off is this transformer and
only low voltage is present at the front panel on/off switches.
Voltage Selection Taps
There are four labeled plastic terminal blocks. Each block has three connections for wires labeled 74, 75, and
76. Follow the instructions printed on the transformer.
Secondary Connection To T1
The secondary output from T1 is 115V AC three-phase CB2 that protects the secondary of transformer T1 and
is rated at 25 amps.
Optional 480V Transformer
60Hz
Input Voltage Range
493-510
481-492
469-480
457-468
445-456
433-444
420-432
Tap
1 (504)
2 (492)
3 (480)
4 (468)
5 (456)
6 (444)
7 (432)
50Hz
Input Voltage Range
423-440
412-422
401-411
391-400
381-390
371-380
355-370
Tap
1 (504)
2 (492)
3 (480)
4 (468)
5 (456)
6 (444)
7 (432)
Power-Up Low Voltage Control Transformer (T5)
The low voltage control transformer, T5, supplies power to the coil of the main contactor K1. It guarantees that
the maximum voltage leaving the Power Supply assembly when power is off is 12V AC to earth ground. It is
connected via P5 to the Power PCB.
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© Haas Automation January 2010
Operator’s Work Light
Main transformer (T1) outputs 115V AC to the work light.
POWER SUPPLY ASSEMBLY
All control power passes through a power supply assembly on the upper right corner of the control cabinet.
Power PCB (PSUP)
Low voltage power distribution and high voltage fuses and circuit breakers are mounted on a circuit board
called the Power PCB.
Secondary Circuit Breakers
The following circuit breakers are located on the Power supply assembly:
CB2
Controls the 115V power from the main transformer to the I/O PCB and, if tripped, will turn off all
inputs and outputs. CB2 could be tripped by a short circuit in the cables.
CB3
Controls the power to coolant pump only. It can be tripped by an overload of the coolant pump
motor or a short in the wiring to the TSC motor, or lathe hydraulic pump.
CB4
Controls the power to chip conveyor only.
CB5
Controls power to the TSC coolant pump only. It can be tripped by an overload of the TSC coolant
pump motor or a short in the wiring to the motor.
CB6
Single-phase 115V protected ground fault interrupt circuit and output for the worklight.
Power PCB (PSUP) Replacement
1. Follow all precautions noted previously before working in the electrical cabinet
2. Disconnect all leads to the Power PCB (PSUP) and set aside for removal. Ensure all cables are properly
labeled for reconnecting later.
3. After all cables have been disconnected, remove the seven screws holding the Power board to the cabinet
and remove the board. Take care to hold the Power board in place until all screws have been removed.
NOTE: If replacing the Low Voltage Power Supply board, please skip the next step.
4. Replace the Power board, attaching it with the seven screws previously removed. Do not forget to use the
lower left screw for a ground connection.
5. Reconnect all cables to Power board at proper location. Refer to release notes for additional information.
LOW VOLTAGE POWER SUPPLY
The low voltage power supply provides +5V DC, +12V DC, and -12V DC to all logic sections of the control. It
operates from 115V AC nominal input power, and continues to operate correctly over 90 to 133V AC.
Low Voltage Power Supply (LVPS) Replacement
1. Remove the Power Distribution (Power) board as previously described.
2. Disconnect all leads to the Low Voltage Power Supply (LVPS) board. Ensure all cables are properly labeled
for reconnecting later.
3. After all cables are disconnected, unscrew the two standoffs at the bottom of the board. Unscrew the
remaining two screws at the top of the LVPS board. Hold the board in place until all screws are removed.
4. Replace the LVPS board, attaching it to the cabinet with the two screws and standoffs previously removed.
5. Replace the Power board as previously described.
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Electrical Service
25
RS-232 SERIAL INTERFACE
There are two connectors used for the RS-232 interface. The RS-232 connector on most PCs is a male DB25, so only one type of cable is required for connection to the controller, or between controllers. This cable
must be a DB-25 male on one end and a DB-25 female on the other. Pins 1, 2, 3, 4, 5, 6, 7, 8, and 20 must
be wired one-to-one. It cannot be a Null Modem cable, which inverts pins 2 and 3. To check cable type use
a cable tester to check that communication lines are correct. The controller is DCE (Data Communication
Equipment). This means that it transmits on the RXD line (pin 3) and receives on the TXD line (pin 2). The
RS-232 connector on most PCs is wired for DTE (Data Terminal Equipment), requiring no special jumpers.
The Down Line DB-25 connector is only used when more than one controller is to be used. The first
controller’s down line connector goes to the second controller’s up line connector, etc.
Interfacing a Haas Rotary Control to the mill
The RS-232 interface sends and receives seven data bits, even parity, and two stop bits. The interface must
be set correctly. The data rate can be between 110 and 19200 bits per second. When using RS-232, it is
important to make sure that Parameter 26 (RS-232 Speed) and 33 (X-on/X-off Enable) are set to the same
value in the controller and PC.
If Parameter 33 is set to on, the controller uses X-on and X-off codes to control reception, so be sure your
computer is able to process these. It also drops CTS (pin 5) at the same time it sends X-off and restores CTS
when is sends X-on. The RTS line (pin 4) can be used to start/stop transmission by the controller or the X-on/
Xoff codes can be used. The DSR line (pin 6) is activated at power-on of the controller and the DTR line (pin
20 from the PC) is not used. If Parameter 33 is 0, the CTS line can still be used to synchronize output.
When more than one Haas controller is daisy-chained, data sent from the PC goes to all of the controllers at
the same time, requiring an axis selection code (Parameter 21). Data sent back to the PC from the controllers
is ORed together so that, if more than one box is transmitting, the data will be garbled. Because of this, the
axis selection code must be unique for each controller.
RS-232 Remote Command Mode
Parameter 21 must be non-zero for the remote command mode to operate as the controller looks for an axis
select code defined by this parameter. The controller must also be in RUN mode to respond to the interface.
Since the controller powers-on in Run mode, remote unattended operation is thus possible.
RS-232 Line Noise
To minimize line noise on the serial port, reroute the cables straight up the left-hand side of the control to the
processor stack. Do not run them above the I/O PCB or up the center wire channel to the processor.
Transmission errors may be best minimized with a good common ground between the PC and CNC control.
RS-232 Loop Back Test
If you have a communications problem between Port #1 of the machine and your external computer, use the
following procedure to isolate the problem to either internal or external causes.
1. Unplug the cable from Port #1 of the Control Panel, and plug the cable tester in (port #1).
PLUG TESTER
BACK VIEW
The RS-232 Plug Tester is a 25-pin male connector with the following pins shorted.
Pins 2 & 3 and Pins 14 & 16
In order to properly perform the test, Setting 14 must be set to CTS/RTS.
2. If the machine is on, cycle the power (power down then turn back on).
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3. Press List Prog, followed by press Param Dgnos twice, then press Send RS232.
4. If the internal serial port is working, the lower left-hand part of the screen will display Serial Passed. (This
means that the system, to the output of the control panel, is working. Check the cable to the computer
set-up if you still have a communications problem.)
If the internal serial port is bad, the lower left-hand part of the screen will display Serial Failed. (This means
there is a problem inside the control panel, or that the test connector is unplugged or missing.)
RS-232 PCB Replacement
1. Follow all precautions noted previously before working in the electrical cabinet.
NOTE: It is necessary, when replacing the RS-232 board, to work from the inside and
outside of the cabinet at the same time.
VR5
VR4
P2
VR1
VR2
To
SKBIF
P1
R2
R3
R4
R5
P1
J4
* Requires second RS-232 Board (34-4089)
Coldfire
Micro
Processor
C5
C4
C3
C2
C1
R1
PIN 1
J14
Micro
Processor
To
SKBIF
P1
GND
C5
P3
C4
C3
R1
PIN 1
C2
C1
GND
RS-232
PORT 2*
J4
J3
P3
R5
R4
R3
RS-232
PORT 1
R2
J13
Video &
Keyboard
PCB
VR3
VR5
P2
VR1
VR2
VR3
P1
RS-232
PORT 1
VR4
2. On the left side of the cabinet, at the top of the side panel, are two serial port connections labeled “Serial
Port #1” and “Serial Port #2”. Serial Port #1 is the upper connection.
RS-232
PORT 2*
J14
* Requires second RS-232 Board (34-4090)
RS-232 Wiring Diagram (with Serial Keyboard)
3. To remove the RS-232 board, unscrew the two hex screws (on the exterior of the cabinet) holding the
connector to the cabinet. From the inside of the cabinet, pull the connector through the panel, and disconnect
the cable.
4. Replace the RS-232 board by first connecting the appropriate cable to the board (850 to Serial Port #1,
850A to Serial Port #2, then inserting the board (cable side up) through the left side panel. Attach with the two
hex screws previously removed. Ensure the board for Serial Port #1 is the upper connector and the board for
Serial Port #2 is the lower connector.
SPARE USER M CODE INTERFACE
The M code interface uses outputs M21-25 and one discrete input circuit. M codes M21 through M25 will
activate relays labeled M21-25. These relay contacts are isolated from all other circuits and may switch up to
120V AC at three amps. The relays are SPDT (Single Pole Double Throw).
WARNING!
Power circuits and inductive loads must have snubber protection.
The M-FIN circuit is a normally open circuit that is made active by bringing it to ground. The one M-FIN
applies to all of the user M codes.
The timing of a user M function must begin with all circuits inactive (open). The timing is as follows:
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© Haas Automation January 2010
Electrical Service
27
M21
M-FIN Discrete
Input 1009
CNC is:
Running
Waiting
for M-fin
.05 ms
delay
Waiting for Running
end M-fin
The Diagnostic Data display page may be used to observe the state of these signals.
M FUNCTION RELAYS (M-FIN)
The I/O PC board has relays that are available to the user. M21 is already wired out to P12 at the side of the
control cabinet. This is a four-pin DIN connector and includes the M-FIN signal.
NOTE: Refer to Diagnostic Data for specific machine Inputs and Outputs.
3
1 M-FIN, Input Signal
4
2 Input GND
M-Code
Output Relay
Normally Open
NOTE: Some or all of the M21-25 on the I/O PCB may be used for factory installed options.
Inspect the relays for existing wires to determine which are in use.
M-FIN DISCRETE INPUT
The M-FIN discrete input is a low voltage circuit. When the circuit is open, there is +12V DC at this signal.
When the line is brought to ground, there is about 10 milliamps of current. M-FIN is discrete input 1009
and is wired from input 1009 on the I/O PCB (usually P10). The return line for grounding the circuit should
come from that PCB. For reliability, these two wires should be routed in a shielded cable where the shield is
grounded at one end only. The diagnostic display shows a “1” when the circuit is open and a “0” when it is
grounded.
WIRING
THE
RELAYS
Relays are marked on the I/O PCB, with their respective terminals forward of them. If the optional 8M relay
board is installed, connections on the I/O PCB are unused, since they are replaced by relays on the optional
board. Refer to the figure, and the Probe Option figure in the Electrical Diagrams section for terminal labeling.
SWITCHES
X, Y, Z Travel Limit Switches
Machine zero position is defined by a limit switch for each of the X, Y, and Z axes. After search for machine
zero is complete, these switches are used to limit travel in the positive direction. Negative direction travel is
limited by stored stroke limits. It is not normally possible to command the servo axes past the machine zero
as servo travel lookahead will decelerate and stop each motor prior to exceeding the stroke limits.
Prior to performing a Power Up/Restart or an Auto All Axes operation, there are no travel limits. You can jog
into the hard stops in either direction for X, Y, or Z. After a Zero Return has been performed, the travel limits
will operate unless an axis hits the limit switch. When the limit switch is hit, the zero returned condition is reset
and an Auto All Axes must be done again to ensure you can still move the servo back away from it.
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The limit switches are normally closed. When a search for zero operation is being performed, the X, Y, and Z
axes will move towards the limit switch unless it is already active (open); then move away from the switch until
it closes again; then continue to move until the encoder Z channel is found. This position is machine zero.
On some mills, the auto search for zero in the Z-axis is followed by a rapid move from the limit switch position
down to the tool change position, making the Z-axis a little different from the other axes. The position found
with the limit switch is not machine zero but is the position used to pull tools out of the spindle. Machine zero
for Z is below this by Parameter 64. Be careful during the Z zero search and stay clear of that rapid move.
What Can Go Wrong With Switches?
Proximity switches are distance sensitive, and must be set no farther than .012” (3mm) away from an
assembly or limit flag. An improperly set proximity switch will give inconsistence results, which may be
interrupted as another problem. Any time a switch is replaced ensure the proper distance is set.
• If the machine is operated with Limit Switch inputs disabled, a Low Lube and Door Open alarm is generated.
In addition, Home search will not stop at the limit switch and instead runs into the physical stops on each axis.
• If the switch is damaged and permanently open, the zero search for that axis will move in the negative
direction at about 0.5 in/min until it reaches the physical travel stops at the opposite end of travel.
• If the switch is damaged and permanently closed, the zero search for that axis will move at about 10 in/min
in the positive direction until it reaches the physical stops.
• If the switch opens or a wire breaks after the zero search completes, an alarm is generated, the servos are
turned off, and all motion stops. The control will operate as though the zero search was never performed.
Reset can be used to turn servos on, but you can jog that axis slowly.
Clamp/Unclamp Switches
There are two switches used to sense the position of the turret or tool clamping mechanism. They are both
normally closed and one will activate at the end of travel during unclamping and the other during clamping.
When both switches are closed, it indicates that the turret or drawbar is between positions.
The diagnostic display can be used to display the status of the relay outputs and the switch inputs.
Door Hold Switch
The switch is normally closed. When the door opens, the switch opens and the machine stops with a “Door
Hold” function. When the door is closed again, operation continues normally.
If the door is open, it is not possible to start a program. Door hold will not stop a tool change operation, will not
turn off the spindle, and will not turn off the coolant pump. The door hold function can be temporarily disabled
with Setting 51, but this setting will return to Off when the control is turned off.
Tool #1 Sense Switch
The tool rotation turret has a switch activated when tool one is in position or facing toward the spindle. At
Power On this switch can indicate that tool #1 is in the spindle. If this switch is not active at power-on, the first
tool change will rotate the turret until the switch engages and then move to the selected tool. The diagnostic
display will show the status of this input switch as “Tool #1”. A “1” indicates that tool #1 is in position.
Umbrella Tool Changer Geneva Wheel Position Mark (Vert)
The turret rotation mechanism has a switch mounted so that it is activated for about 30o of travel of the
Geneva mechanism. When activated, this switch indicates that the turret is centered on a tool position. This
switch is normally closed. The diagnostic display will show this status of this input switch as “TC MRK”. A “1”
indicates the Geneva wheel is in position.
Umbrella Tool Changer Shuttle In/Out Switches (Vert)
Two switches are used to sense the position of the tool changer shuttle and the arm that moves it. One switch
is activated when the shuttle is moved to full travel inward and one is activated when it is in full travel outward.
These switches are normally closed, so that both are closed between in and out. The diagnostic display will
show the status of the input switch. A “1” indicates the associated switch is activated or open.
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Electrical Service
29
Transmission High/Low Gear Position Switches
On machines with a two-speed transmission, there are two switches in the gearbox used to sense the position
of the gears. One switch indicates “High” by opening and the other indicates “Low” by opening. Between
gears, both switches are closed, indicating a between-gear condition. The diagnostic display shows the status
of these switches and the Curnt Comds display shows which gear is selected. If the switches indicate that the
gearbox is between gears, the display will indicate “No Gear”.
NOTE: The Transmission High/Low Gear Position Switches are located at the bottom of the
Gearbox Assembly and are difficult to reach. Removal of this assembly is necessary
to replace these switches. See the Mechanical Components Service Manual, for
Spindle Motor and Transmission removal.
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Electrical Service
31
DIAGNOSTIC DATA
The Alarm Msgs display is the most important source of diagnostic data. At any time after the machine completes its power-up sequence, it will either perform a requested function or stop with an alarm. Refer to the
Alarms chapter for their possible causes and some corrective action.
If there is an electronics problem, the controller may not complete the power-up sequence and the monitor
will remain blank. In this case, there are two sources of diagnostic data; these are the audible beeper and the
LEDs on the processor PCB. If the audible beeper is alternating a ½ second beep, there is a problem with the
main control program stored in EPROMs on the processor PCB. If any of the processor electronics cannot be
accessed correctly, the LEDs on the processor PCB will or will not be lit.
If the machine powers up but has a fault in one of its power supplies, it may not be possible to flag an alarm
condition. If this happens, all motors will be kept off and the top left corner of the monitor will display a Power
Failure Alarm message, and all other functions of the control will be locked out.
When the machine is operating normally, a second push of the Param/Dgnos key selects the diagnostics
display page. The Page Up and Page Down keys are then used to select one of two different displays. These
are for diagnostic purposes only and are not normally needed. The diagnostic data consists of 32 discrete
input signals, 32 discrete output relays and several internal control signals. Each can have the value of 0 or 1.
There are also up to three analog data displays and an optional spindle rpm display.
DISCRETE INPUTS/OUTPUTS (LATHE)
Discrete Inputs
#
Name
1000
Tool Turret Unlock
1001
Tool Turret Lock
1002
Spare
1003
Low Coolant
1004
Automatic Door
1005
Spindle In Hi Gear
1006
Spindle In Low Gear
1007
Emergency Stop
1008
Door Switch
1009
M Code Finish
1010
Over Voltage
1011
Low Air Pressure
1012
Low Lube Press.
1013
Regen Overheat
1014
Spare
1015
Spare
32
#
1016
1017
1018
1019
1020
1021
1022
1023
1024
1025
1026
1027
1028
1029
1030
1031
Name
Spare
Spare
Spare
Spare
Low hyd pressure
T.S. Foot Switch
Probe Not Home
Spare 2b
Tool Unclamp Rmt*
Low Phasing 115V
B F End of Bar
Bar Feeder Fault
Ground Fault
G31 Block Skip
B F Spindle Intlk
Conveyr Overcrnts
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© Haas Automation January 2010
Discrete Outputs
#
Name
1100
Hyd Pump Enable
1101
Spare
1102
Spare
1103
Spare
1104
Spindle Brake
1105
Coolant Pump on
1106
Power Off
1107
Way Lube Pump
1108
SB Motor Load PR
1109
SB Motor Load Bar
1110
Auto Door Open
1111
Auto Door Close
1112
Spindle Hi Gear
1113
Spindle Low Gear
1114
Unclamp Chuck
1115
Lock Spindle
#
1116
1117
1118
1119
1120
1121
1122
1123
1124
1125
1126
1127
1128
1129
1130
1131
Name
Move Spigot CW
Move Spigot CCW
Pal Ready Light
T.S. High Pressure
Tool Turret Out
T.S. Reverse
T.S. Forward
(CE) Door Locked
M21 (Auto Door Clutch)
M22 (Parts Catcher)
M23 (C Axis Engage)
HPC Coolant
Green Beacon On
Red Beacon On
Enable Conveyor
Reverse Conveyor
The second page of diagnostic data is displayed using the Page Up and Page Down keys. It contains:
Inputs 2
X-axis Z Channel
Y-Axis Z Channel
Z-axis Z Channel
A-axis Z Channel
B-axis Z Channel
C-axis Z Channel
X Motor Over Heat
Y Motor Over Heat
Z Motor Over Heat
A Motor Over Heat
B Motor Over Heat
C Motor Over Heat
X Home Switch
Y Home Switch
Z Home Switch
A Home Switch
B Home Switch
C Home Switch
X drive fault
Y drive fault
Z drive fault
A drive fault
B drive fault
C drive fault
X Cable Input
Y Cable Input
Z Cable Input
A Cable Input
B Cable Input
C Cable Input
S Z CH Spindle Z Channel
The Temp-Track option displays the X and Z ballscrew temperatures on the Inputs2 diagnostics screen just
above “SP Load” when Parameter 266 or 268 bit 9 “Temp Sensor” is set to 1. The following inputs and outputs
pertain to the Haas Vector Drive. If it is not enabled, a value of * is displayed. Otherwise, it displays a 1 or 0.
Haas Vector Drive
Name
Spindle Forward
Spindle Reverse
Spindle Lock
Spindle At Speed
Spindle Stopped
96-0284 rev H
© Haas Automation January 2010
Name
Spindle Fault
Spindle Locked
Spindle Cable Fault
Spindle Overheat
Electrical Service
33
Analog Data
Name
SP LOAD
SP SPEED
RUN TIME
TOOL CHANGES
VER X.XXX
YY/MM/DD
MDL SL-__
DC BUSS
Description
Spindle load in %
Spindle rpm CW or CCW
Total machine run time
Number of tool changes
Software version number
Today’s date
Model number
Mocon II
DISCRETE INPUTS/OUTPUTS (MILLS)
#
1000
1001
1002
1003
1004
1005
1006
1007
1008
1009
1010
1011
1012
1013
1014
1015
1016
1017
1018
1019
1020
1021
1022
Name
TC Changer In/SMTC Pocket Down
TC Changer Out/SMTC Pocket Up
Tool One In Pos.
Low TSC Pressure
Tool In Position
Spindle High Gear
Spindle Low Gear
Emergency Stop
Door Safety Switch
M Code Finish*/APC: APC Pal Clamp
Over Voltage (Mini-Mill - P.S. Fault)
Low Air Pressure
Low Lube Press.
Regen Over Heat
Drawbar Open
Drawbar Closed
Spare
Spare
Spare
Spare
Low Trans Oil Prs
Spare 1/APC Door
Spare 2/APC Pin Clr #1
#
1023
1024
1025
1026
1027
1028
1029
1030
1031
1032
1033
1034
1035
1036
1037
1038
1039
1040
1041
1042
1043
1044
1045
Discrete Input Name
Spare 3/APC Pin Clr #2
Tool Unclmp Rmt*
Spare
Spare 3A/APC Pal #2 Home
Spare 3B/APC Pal #1 Home
Ground Fault
G31 Block Skip
Spigot Position
Conveyr Overcrnt
Spare 4A
Spare 4B
Spare 5A
Spare 5B
Spare 6A
Spare 6B
Spare 7A
Spare 7B
Spare 8A
Spare 8B
Spare 9A (SMTC: Motor stop)
Spare 9B (SMTC: Origin)
Spare 10A (SMTC: Clamp / Unclamp)
Spare 10B
Inputs are numbered the same as the connections on the inputs printed circuit board. (*): active when = 0.
#
1100
1101
1102
1103
1104
1105
1106
1107
1108
1109
1110
1111
1112
1113
34
Discrete Output Name
Powered Servos
Spare
Spare
Spare
Brake 4th Axis
Coolant Pump On
Auto Power Off
Spind. Motor Fan
Move T.C. In/APC Chain Dr Fwd
Move T.C. Out/APC Chain Dr Rev
Rotate T.C. CW
Rotate T.C. CCW
Spindle Hi Gear
Spindle Low Gear
#
1120
1121
1122
1123
1124
1125
1126
1127
1128
1129
1130
1131
1132
1133
Discrete Output Name
Unclamp Pre-Chrg
HTC Shuttle Out (Air Drive Shuttle in/ APC Door)
Brake 5TH Axis
CE Door Lock
M21
M22
M23 (Air Drive Shuttle: Move Shuttle Out)
TSC Coolant
Green Beacon On
Red Beacon On
Enable Conveyor
Reverse Conveyor
M-fin
Probe
Electrical Service
96-0284 rev H
© Haas Automation January 2010
#
1114
1115
1116
1117
1118
1119
Discrete Output Name
Unclamp Tool
Spare
Move Spigot CW
Move Spigot CCW
Pal Ready Light
TSC Purge
#
1134
1135
1136
1137
1138
1139
Discrete Output Name
spare
spare
spare
spare
spare
spare
NOTE: The following inputs and outputs change for machines equipped with an APC.
#
1021
1022
1023
1026
1027
1046
1047
1048
1101
Discrete Output Name
APC CE Door
APC Pin CLR #1
APC Pin CLR #2
APC PAL #2 Home
APC PAL #1 Home
APC Door Closed
Door Open
APC Pallet Clamped
Pallet Clamped
#
1108
1109
1121
1122
1125
1126
1137
1138
1139
Discrete Output Name
APC Chain Drive Forward
APC Chain Drive Reverse
PAL Clamp
Door
APC Motor
Beeper
APC Chain Drive Power Enable
Air Blast
APC Beeper
The second page of diagnostic data is displayed using the Page Up and Page Down keys. It contains:
Inputs 2
Name
X Axis Z Channel
Y Axis Z Channel
Z Axis Z Channel
A Axis Z Channel
B Axis Z Channel
X Home Switch
Y Home Switch
Z Home Switch
A Home Switch
B Home Switch
Name
X Overheat
Y Overheat
Z Overheat
A Overheat
B Overheat
X Drive Fault
Y Drive Fault
Z Drive Fault
A Drive Fault
B Drive Fault
Name
X Cable Input
Y Cable Input
Z Cable Input
A Cable Input
B Cable Input
Spindle Z Channel
The following inputs and outputs pertain to the Haas Vector Drive. If it is not enabled, these will display a
value of *. Otherwise, it will display a 1 or 0.
Spindle Forward
Spindle Reverse
Spindle Lock
Spindle at Speed*
Spindle Stopped
Spindle Fault
Spindle Locked
Spindle Cable Fault
Spindle Over Heat
The following Discrete Inputs/Outputs 2 are available when Parameter 278 SMNT bit 1,2 or 3 (Side-Mount
Tool Changer) is set and Parameter 209 MCD RLY BRD (M-Code relay board) is On.
96-0284 rev H
© Haas Automation January 2010
Electrical Service
35
Discrete Inputs 2
Name
Spare Input 4A
Spare Input 4B
Spare Input 5A
Spare Input 5B
Spare Input 6A
Spare Input 6B
Spare Input 7A
Spare Input 7B
Name
Spare Input 8A
Serp. Shot Pin*
Motor Stop
Origin
Clamp/Unclamp
Serp. Cam Count
Spare Input 11A
Spare Input 11 B
Discrete Outputs 2
Name
Spare Output 32
Spare Output 33
Spare Output 34
Spare Output 35
Spare Output 36
TC MTR SW
Spare Output 38
Spare Output 39
Spare Output 40
Spare Output 41
Spare Output 42
Spare Output 43
Name
Spare Output 44
Spare Output 45
Spare Output 46
Spare Output 47
Spare Output 48 (SMTC: Serp. ATC Enable)
Spare Output 49 (SMTC: Serp. ATC Rev.)
Spare Output 50 (SMTC: Serp. Carsl CW)
Spare Output 51 (SMTC: Serp. Carsl CCW)
Spare Output 52 (SMTC: Serp. Carsl Ena.)
Spare Output 53
Spare Output 54
Spare Output 55
Analog Data
Name
DC BUSS
uP TEMP
SP LOAD
SP SPEED
RUN TIME
TOOL CHANGES
VER X.XXX
MOCON
YY/MM/DD
MDL HS__
FV 2 11.0004
36
Description
Voltage from Haas Vector Drive (if equipped)
Displayed when Parameter 278 bit “µP Encl Temp” is set to 1)
Spindle load in %
Spindle rpm CW or CCW
Machine total run time
Number of tool changes
Software version number
MOCON software version
Today’s date
Machine model
Floppy version (Ethernet Firmware)
Electrical Service
96-0284 rev H
© Haas Automation January 2010
CABLE LIST
WIRE/
TERMINAL
NUMBER
FUNCTION NAME:
INCOMING POWER 195-260 VAC (353-488 VAC OPTIONAL)
L1
L2
L3
INCOMING 195-260VAC, PHASE 1, TO CB1-1
INCOMING 195-260VAC, PHASE 2, TO CB1-2
INCOMING 195-260VAC, PHASE 3, TO CB1-3
71
72
73
PROTECTED 195-260 VAC FROM MAIN CB1-4 TO K1-1
PROTECTED 195-260 VAC FROM MAIN CB1-5 TO K1-2
PROTECTED 195-260 VAC FROM MAIN CB1-6 TO K1-3
74
75
76
195-260 VAC FROM K1-4 TO XFORMER T1
195-260 VAC FROM K1-5 TO XFORMER T1
195-260 VAC FROM K1-6 TO XFORMER T1
77
78
79
230VAC PHASE 1 , FROM XFORMER T1 TO VECTOR/CHIP CONV
230VAC PHASE 2 , FROM XFORMER T1 TO VECTOR/CHIP CONV
230VAC PHASE 3 , FROM XFORMER T1 TO VECTOR/CHIP CONV
90
91
92
93
94
115 VAC FROM TB2 (CB2 OUTPUT) TO IOPCB P33
STEPPED-DOWN 115 VAC (FROM XFRMR T1)
STEPPED-DOWN 115 VAC (FROM XFRMR T1)
STEPPED-DOWN 115 VAC (FROM XFRMR T1)
SHIELD DRAIN
—94
95
96
115 VAC FROM XFORMER T1 TO TB1
STEPPED-DOWN 115 VAC (FROM XFRMR T1)
STEPPED-DOWN 115 VAC (FROM XFRMR T1)
STEPPED-DOWN 115 VAC (FROM XFRMR T1)
90A
91A
92A
93A
115 VAC TO CRT
LEG 1
LEG 2
SHIELD DRAIN
90B
91B
92B
93B
115 VAC TO HEAT EXCHANGER (CABINET DOOR FAN)
LEG 1
LEG 2
SHIELD DRAIN
90C
91C
92C
93C
115 VAC TO CB4
LEG 1
LEG 2
SHIELD DRAIN
100
101
102
103
M-FIN
SIGNAL
COMMON
SHIELD DRAIN
100A
101A
102A
103A
MFIN OUTPUT M21 (MCD RELAY BOARD M21)
UNSWITCHED LEG 1
SWITCHED LEG 2
SHIELD DRAIN
110
SPARE
96-0284 rev H
© Haas Automation January 2010
Cable List
37
120
121
122
123
TSC OVER TEMP THERMAL SENSOR (Vert)
THERMAL SENSOR SIGNAL
THERMAL SENSOR RETURN
SHIELD
140
141
142
143
144
145
146
230VAC 3PH POWER TO CHIP CONVEYOR MOTOR
PHASE A 230VAC
PHASE B 230VAC
PHASE C 230VAC
STARTING WINDING 230VAC
STARTING WINDING 230VAC
SHIELD DRAIN
140A
141A
142B
143B
230VAC 3PH POWER IN CONDUIT TO CHIP CONVEYOR (Lathe)
PHASE A 230VAC
PHASE B 230VAC
PHASE C 230VAC
160
161
162
163
164
3PH 230VAC TO CHIP CONVEYOR CONTROLLER
PHASE A 230VAC
PHASE B 230VAC
PHASE C 230VAC
SHIELD DRAIN
170
171
172
173
AUTO OFF FUNCTION
UNSWITCHED LEG 1
SWITCHED LEG 2
SHIELD DRAIN
180
181
182
183
COOLANT SPIGOT DETENT SWITCH (Mill) SPARE (Lathe & Horiz)
SIGNAL
COMMON
SHIELD DRAIN
190
191
192
193
UNCLAMP FROM SPINDLE HEAD TO IOASM
INPUT 25
DIGITAL RETURN
SHIELD DRAIN
200
201
202
COOLANT SPIGOT MOTOR (12VDC) (Mill) SPARE (Lathe & Horiz)
MOTOR +
MOTOR -
210
DATA CABLE TO 3” FLOPPY DISK DRIVE
220
221
222
223
SERVO BRAKE 115VAC (Mill)
115VAC COMMON
115VAC SWITCHED
SHIELD DRAIN
230
231
232
233
5’th AXIS BRAKE (Vert & Horiz) TAILSTOCK FORWARD OPTION (Lathe)
115VAC COMMON
115VAC SWITCHED
SHIELD DRAIN
240
241
242
243
244
PALLETS UP & DOWN INPUTS (Vert & Horiz) BARFEEDER LOAD BAR-BARFEEDER LOAD Q (Lathe)
PALLETS UP (Vert & Horiz) END OF BAR (Lathe)
PALLETS DOWN (Vert & Horiz) LOADER OK (Lathe)
COMMON
SHIELD DRAIN
38
Cable List
96-0284 rev H
© Haas Automation January 2010
250
251
252
253
VR SHUT IN / APC DOOR OPEN/ MD NIAGRA COOLANT ON (Vert option) HTC SHUTTLE/MORI MANUAL
TOOL RELEASE (Horiz) TAILSTOCK REVERSE OPTION (Lathe)
LEG 1 (Mill) 115 VAC (Lathe)
LEG 2 (Mill) 115 VAC RETURN (Lathe)
SHIELD DRAIN
260
261
262
263
K210 CABLING FOR EC (Mill) SPARE (Lathe)
SWITCHED LED
UNSWITCHED LEG
SHIELD DRAIN
270
271
272
273
K111 CABLING FOR EC (Mill) TAILSTOCK RAPID OPTION (Lathe)
UNSWITCHED LEG 1 (Mill) 115 VAC (Lathe)
SWITCHED LEG 2 (Mill) 115 VAC RETURN (Lathe)
SHIELD DRAIN
280
281
282
283
284
RED/GREEN STATUS LIGHT WIRING
RED LAMP 115VAC
GREEN LAMP 115VAC
COMMON 115VAC
SHIELD DRAIN
290
291
292
293
294
295
115VAC TO XFORMER T2 10VAC OUTPUT (Horiz) CABLE OP LIGHT + SPINDLE MOTOR FAN (Lathe)
LEG 1 PRIMARY (Horiz) 115 VAC (Lathe)
LEG 2 PRIMARY (Horiz) 115 VAC RETURN (Lathe)
CENTER TAPPED (GROUND) (Horiz) SHIELD DRAIN (Lathe)
LEG 1 SECONDARY (Horiz)
LEG 2 SECONDARY (Horiz)
300
301
302
303
115VAC TO SPINDLE MOTOR FAN/OIL PUMP/OILER
LEG 1 115VAC PROTECTED
LEG 2 115VAC PROTECTED
SHIELD DRAIN
310
APC #2 DOOR OPEN (Vert) PC PALLET CW/CCW (Horiz)
AUTO DOOR CLUTCH - PARTS CATCHER (Lathe)
330
331
332
333
230V 3PH FROM CB6 TO K2 (LATHE HYDRAULICS)
PHASE 1 230VAC
PHASE 2 230VAC
PHASE 3 230VAC
340
341
342
343
230V 3PH FROM K2 TO HYDRAULIC PUMP (LATHE)
PHASE 1 230VAC
PHASE 2 230VAC
PHASE 3 230VAC
350
351
352
353
SERVO BRAKE RELEASE 115VAC (Mill) 115VAC HYD PUMP ENABLE (Lathe)
LEG 1 COMMON (Mill) 115VAC (Lathe)
LEG 2 SWITCHED (Mill) 115VAC RETURN (Lathe)
SHIELD DRAIN
390
391
392
393
115VAC TO 4’TH AXIS BRAKE (LATHE PART DOOR)
LEG 1 COMMON
LEG 2 SWITCHED
SHIELD DRAIN
410
411
412
413
TOOL CHANGER DOOR/APC CE DOOR OPEN (Mill) TAILSTOCK FOOT SWITCH (Lathe)
SIGNAL (Lathe)
RETURN (Lathe)
SHIELD DRAIN
420
APC #2 PIN CLR #1 / APC #2 PIN CLR #2 / APC #2 PAL #2 HOME / APC #2 PAL #1 HOME (Vert)
MORI ARM IN/OUT - SMTC ARM CW/CCW (Horiz)
96-0284 rev H
© Haas Automation January 2010
Cable List
39
430
APC PALLET CLAMP MD PAL UP (Mill) APL LIGHT/BF EXTENDED PUSH (Lathe)
440
AUTO DOOR OPEN (Vert) SMTC CAGE DOOR OPEN - MORI ARM OUT (Horiz) DOOR OPEN (Lathe)
450
APC #2 CE DOOR OPEN (Vert) MORI ARM CW/CCW (Horiz) STEADY REST FOOT SWITCH (Lathe)
460
APC #2 DOOR CLOSED - APC #2 DOOR OPEN (Vert) MORI SLIDE 1/2 WAY - MORI SLIDE LEFT (Horiz)
APL ROTOR MARK - APL ROTOR HOME (Lathe)
470
SMTC MOTOR STOP (Vert) SMTC SHUTTLE MARK (Horiz)
490
491
492
493
494
ALL BRUSHLESS AXIS SERVO MOTOR DRIVE POWER CABLE
A PHASE
B PHASE
C PHASE
GROUND
490A
490B
490X
490Y
490Z
A AXIS MOTOR POWER (Vert) 320VDC FROM SPINDLE DRIVE TO AMPLIFIERS (Horiz & Lathe)
B AXIS MOTOR POWER (Vert) 320VDC FROM AMPLIFIER TO SERVO POWER SUPPLY (Horiz & Lathe)
X AXIS MOTOR POWER
Y AXIS MOTOR POWER
Z AXIS MOTOR POWER
491A
492A
493A
491B
492B
HIGH VOLT P1/+ RED (Horiz & Lathe)
HIGH VOLT N/- BLACK (Horiz & Lathe)
SHIELD DRAIN
HIGH VOLT + RED (Horiz & Lathe)
HIGH VOLT - BLACK (Horiz & Lathe)
500
501
502
503
OVERTEMP SENSOR FROM SPINDLE MOTOR
OVERTEMP WIRE 1
OVERTEMP WIRE 2
SHIELD DRAIN
510
RELAY CARD 1 DRIVE CABLE - 16 WIRE RIBBON
520
RELAY CARD 2 DRIVE CABLE - 16 WIRE RIBBON
530
RELAY CARD 3 DRIVE CABLE - 16 WIRE RIBBON
540
RELAY CARD 4 DRIVE CABLE - 16 WIRE RIBBON
550
INPUTS CARD CABLE (MOCON P10) 34 WIRE RIBBON
570
571
572
573
LOW VOLTAGE BRUSHLESS AMPLIFIER POWER CABLE ASSEMBLY (Horiz & Lathe)
+12VDC #22
COMMON
- 12VDC #22
610
610-1
610-2
610-3
610-4
610-5
610-6
610-7
610-8
610-9
610-10
X AXIS HAAS AMPLIFIER CABLE TO MOTOR CONTROLLER BOARD
+A CHANNEL
ANALOG GROUND
+B CHANNEL
ANALOG GROUND
ENABLE
LOGIC GROUND
FAULT
LOGIC GROUND
NOT USED
SHIELD/ANALOG GROUND
620
Y AXIS HAAS AMPLIFIER CABLE TO MOTOR CONTROLLER BOARD
(SAME AS 610-1 THRU 610-10) (Mill)
630
Z AXIS HAAS AMPLIFIER CABLE TO MOTOR CONTROLLER BOARD
(SAME AS 610-1 THRU 610-10)
40
Cable List
96-0284 rev H
© Haas Automation January 2010
640
A AXIS HAAS AMPLIFIER CABLE TO MOTOR CONTROLLER BOARD
(SAME AS 610-1 THRU 610-10) (Lathe)
640A
A AXIS HAAS AMPLIFIER CABLE TO MOTOR CONTROLLER BOARD
(SAME AS 610-1 THRU 610-10) (Mill)
640B
B AXIS HAAS AMPLIFIER CABLE TO MOTOR CONTROLLER BOARD
(SAME AS 610-1 THRU 610-10) (Mill)
640C
C AXIS HAAS VECTOR CURRENT COMMAND CABLE TO MOTOR CONTROLLER BD.
(SAME AS 610-1 THRU 610-10) (Vert)
640C
640C-1
640C-2
640C-3
640C-4
640C-5
640C-6
640C-7
640C-8
640C-9
640C-10
HAAS VECTOR DRIVE CURRENT COMMAND CABLE (Horiz & Lathe)
A PHASE
B PHASE
ENABLE
FAULT
320VDC VOLTAGE MONITOR
A PHASE RETURN
B PHASE RETURN
DIGITAL GROUND
FAULT RETURN
ANALOG GROUND
650
651
652
653
654
THREE PHASE POWER TO SPINDLE MOTOR
LEG 1 OF 230VAC
LEG 2
LEG 3
SHIELD DRAIN
650A
651A
652A
653A
654A
THREE PHASE POWER TO SPINDLE MOTOR
LEG 1 OF 230VAC
LEG 2
LEG 3
SHIELD DRAIN
650B
651B
652B
653B
654B
THREE PHASE POWER TO SPINDLE MOTOR
LEG 1 OF 230VAC
LEG 2
LEG 3
SHIELD DRAIN
660
660-1
660-2
660-3
660-4
660-5
660-6
660-7
660-8
660-9
660-10
660-11
660-12
660-13
660-14
660-15
660-16
X-AXIS ENCODER CABLE
LOGIC RETURN (D GROUND)
ENCODER A CHANNEL
ENCODER B CHANNEL
+5 VDC
ENCODER Z CHANNEL (OR C)
HOME/LIMIT SW
OVERHEAT SWITCH
ENCODER A*
ENCODER B*
ENCODER Z* (OR C*)
X HALL A (NOT USED)
X HALL B (NOT USED)
X HALL C (NOT USED)
X HALL D (NOT USED)
SHIELD DRAIN
(NOT USED)
670
Y-AXIS ENCODER CABLE (SAME AS 660-1 THRU 660-16) (Mill)
680
Z-AXIS ENCODER CABLE (SAME AS 660-1 THRU 660-16)
96-0284 rev H
© Haas Automation January 2010
Cable List
41
690
A-AXIS ENCODER CABLE (SAME AS 660-1 THRU 660-16) (Vert & Lathe)
690A
A-AXIS ENCODER CABLE (SAME AS 660-1 THRU 660-16) (Horiz)
690B
B-AXIS ENCODER CABLE (SAME AS 660-1 THRU 660-16) (Mill)
690C
C-AXIS ENCODER CABLE (SAME AS 660-1 THRU 660-16) (Mill)
700
KEYBOARD CABLE - 34 WIRE RIBBON WITH IDC (FROM VIDEO P4 TO KBIF P1)
710
711
712
713
714
715
APC #1 PALLET READY 1 / APC #1 PALLET READY 2 (Vert)
P-COOL/BF COLLET OPEN - BF COLLET CLOSE (Horiz) APL GRIP 1,2 (Lathe
FORWARD COMMAND (Vert)
REVERSE COMMAND (Vert)
RESET COMMAND (Vert)
COMMON (Vert)
SHIELD DRAIN
720
721
722
723
ANALOG SIGNAL FROM MOCON TO SPINDLE DRIVE TO LOAD METER (BRUSH SYSTEMS)
0 TO +10 VOLTS SPEED COMMAND (SPINDLE DRIVE CN1-1)
SPEED COMMAND REFERENCE (A GROUND) (CN1-17)
SHIELD DRAIN
730
731
732
733
POWER METER FROM SPINDLE DRIVE TO KBIF (Vert) (BRUSH SYSTEMS)
METER +
METER SHIELD DRAIN
730A
733
734
734
POWER METER FROM KBIF TO METER (Vert) (BRUSH SYSTEMS)
METER + AFTER TRIM POT
METER - AFTER TRIM POT
METER - AFTER TRIM POT
730B
731
732
ANALOG SIGNAL FROM SPINDLE DRIVE LOAD MONITOR (Vert) (BRUSH SYSTEMS)
SIGNAL 0.5V
GROUND
740
741
742
743
744
745
POWER ON/OFF CABLE TO FRONT PANEL
POWER ON SWITCH LEG 1 (24 VAC)
POWER ON SWITCH LEG 2 #24 N.O.
POWER OFF SWITCH LEG 1 (24 VAC)
POWER OFF SWITCH LEG 2 #24 N.C.
SHIELD DRAIN
750
750-1
750-2
750-3
750-4
750-5
750-6
750-7
750-8
750-9
750-10
750-11
750-12
750-13
750-14
750-15
750-16
JOG-CRANK DATA CABLE (REM JOG SIDE CONNECTION)
LOGIC RETURN (D GROUND) 0VDC
ENCODER A CHANNEL
ENCODER B CHANNEL
+5 VDC
NC (Vert) JUMPER TO 750-1 (0 VDC) (Horiz & Lathe)
X-AXIS
Y-AXIS
N/C (Vert) ENCODER A* CHANNEL (Horiz & Lathe)
N/C (Vert) ENCODER B* CHANNEL (Horiz & Lathe)
N/C (Vert) JUMPER TO 750-4 (+5 VDC) (Horiz & Lathe)
Z-AXIS
A-AXIS
X 10
X1
SHIELD DRAIN
N/C (Vert) NOT USED (Horiz & Lathe)
42
Cable List
96-0284 rev H
© Haas Automation January 2010
750A
751A
752A
753A
754A
755A
JOG HANDLE DATA CABLE (Horiz & Lathe)
+5 VDC
0 VDC
ENCODER A CHANNEL
ENCODER B CHANNEL
SHIELD DRAIN
750B
750B-1
750B-2
750B-3
750B-4
750B-5
750B-6
JOG HANDLE DATA CABLE (Horiz)
+5 VDC JOG HANDLE
0VDC
JOG HANDLE A CHANNEL
JOG HANDLE A* CHANNEL
JOG HANDLE B CHANNEL
JOG HANDLE B* CHANNEL
760
MONITOR VIDEO DATA CABLE (FROM VIDEO P3 TO CRT)
770
771
772
773
EMERGENCY STOP INPUT CABLE
SIGNAL (INPUT 8)
RETURN (D GROUND) (65)
SHIELD DRAIN
770A
771A
772A
773A
SECOND E-STOP INPUT / COUNTERBALANCE (Horiz) / BARFEEDER OPTION (Lathe)
SIGNAL
RETURN (D GROUND)
SHIELD DRAIN
770B
THIRD E-STOP INPUT FOR APC (REMOTE CONTROL PANEL) (Vert)
790
791
792
793
794
APC PIN CLR #1 / MD OP DOOR OPEN - APC PIN CLR #2 / MD OP DOOR CLOSED (Vert)
PALLET CHANGER CW/CCW (Horiz) SPARE INPUTS PROBE HOME OPTION (Lathe)
SPARE 1 (Vert & Lathe) PALLET CW (Horiz)
SPARE 2 (Vert & Lathe) PALLET CCW (Horiz)
COMMON
SHIELD DRAIN
800
801
802
803
10VAC TO PALLET READY LAMP (Horiz)
UNSWITCHED LEG 1
SWITCHED LEG 2
SHIELD DRAIN
800A
801A
802A
LAMP SWITCH JUMPER (Horiz)
JUMPER TO 802A
JUMPER TO 801A
810
811
812
813
TOOL CHANGER MOTORS
TURRET MOTOR + (IO P30-2 TO P6-J)
TURRET MOTOR - (IO P30-1 TO P6-I)
SHIELD DRAIN
810A
811A
812A
813A
TOOL CHANGER MOTORS
SHUTTLE MOTOR +
SHUTTLE MOTOR SHIELD DRAIN
820
821
822
823
824
825
826
TOOL CHANGER STATUS
LOGIC RETURN (Vert) TOOL CHANGER IN (Horiz) TURRET UNCLAMPED (Lathe)
GENEVA MARK (INPUT 5 TO P6-G) (Vert) TOOL CHANGER OUT (Horiz) TURRET CLAMPED (Lathe)
TOOL #1 (INPUT 3 TO P6-E) (Vert) MAIN DRAWBAR UP (Horiz) UNUSED (Lathe)
SHUTTLE IN (INPUT 1 TO P6-C) (Vert) MAIN DRAWBAR DOWN (Horiz) PART LOAD (Lathe)
SHUTTLE OUT (INPUT 2 TO P6-D) (Vert) COMMON (Horiz & Lathe)
SHIELD DRAIN
96-0284 rev H
© Haas Automation January 2010
Cable List
43
830
831
832
833
OVERHEAT THERMOSTAT
OVERHEAT SIGNAL (INPUT 14)
OVERHEAT RETURN (D GROUND) (65)
SHIELD DRAIN
840
841
842
843
CIRCUIT BREAKER FOR 160 VDC (Vert)
LEG 1 (TO 81)
LEG 2
SHIELD DRAIN
850
SERIAL PORT #1 TO SERIAL KEYBOARD INTERFACE CABLE
850A
SERIAL PORT #2 INTERFACE CABLE - AUXILIARY PORT TO ROTARY CONTROLLER
860
861
862
863
864
865
866
+12V/+5V/Gnd POWER CABLES (Vert) +5V/+12V/-12V/Gnd FROM MAIN POWER SUPPLY (Horiz & Lathe)
+12 VOLTS (Vert) +5 VOLTS (Horiz & Lathe)
-12 VOLTS FROM LOW V SUPPLY TO 68020 PCB (Vert) LOGIC POWER RETURN (Horiz & Lathe)
+5 VOLTS (Vert) LOGIC POWER RETURN (Horiz & Lathe)
-5 VOLTS (Vert) +12 VOLTS (Horiz & Lathe)
LOGIC POWER RETURN (D GROUND) (Vert) -12 VOLTS (Horiz & Lathe)
POWER GOOD SIGNAL FROM SUPPLY (Vert)
860A
861A
862A
863A
12 VOLT POWER TO IOPCB (Vert & Lathe) 12 VDC POWER TO M CODE RELAY BOARD (Horiz)
+12 VOLTS
LOGIC POWER RETURN (D GROUND)
SHIELD DRAIN
860B
+5 POWER TO 3” FLOPPY DRIVE (Vert & Lathe)
860C
861A
862A
863A
+5,+12,-12 POWER TO 68030 (Vert & Lathe) 12 VDC POWER TO MONITOR FAN (Horiz)
+12 VOLTS
LOGIC POWER RETURN (D GROUND)
SHIELD DRAIN
870
871
872
873
115VAC TO OILER (Vert & Lathe)
115VAC LEG 1
115VAC LEG 2
SHIELD DRAIN
880A
882A
883A
884A
885A
886A
887A
HIGH/LOW GEAR UNCLAMP/LOCK SOLENOID POWER (Vert)
115 VAC TO SPINDLE HEAD SOLENOIDS (Horiz & Lathe)
115 VAC SOLENOID COMMON (IO P12-5) (Vert) WYE-DELTA SWITCH COMMAND (Horiz)
SPINDLE LOCK (Lathe
HIGH GEAR SOLENOID (IO P12-4) (Vert) TOOL UNCLAMP (Horiz & Lathe)
LOW GEAR SOLENOID (IO P12-3)
TOOL UNCLAMP SOLENOID (IO P12-2) (Vert) HIGH GEAR (Horiz & Lathe)
SPINDLE LOCK SOLENOID (IO P12-1) (Vert) 115 VAC COMMON (Horiz & Lathe)
PRE-CHARGE SOLENOID #18 (IO P12-7) (Vert) SHIELD DRAIN (Horiz & Lathe)
SHIELD DRAIN (Vert) PRECHARGE (Horiz & Lathe)
880B
881B
882B
883B
884B
TRANSMISSION HIGH/LOW GEAR SOLENOIDS FOR LATHE (Vert & Lathe)
115 VAC SOLENOID COMMON (IO P12-5)
HIGH GEAR SOLENOID (IO P12-4)
LOW GEAR SOLENOID (IO P12-3)
SHIELD DRAIN
890
891
892
893
894
895
896
897
SPINDLE STATUS SWITCHES
SIGNAL RETURN (D GROUND) (Vert) HIGH GEAR (Horiz & Lathe)
HIGH GEAR (Vert) LOW GEAR (Horiz & Lathe)
LOW GEAR (Vert) TOOL UNCLAMPED (Horiz & Lathe)
TOOL UNCLAMPED (Vert) TOOL CLAMPED (Horiz & Lathe)
TOOL CLAMPED (Vert) SPARE (Horiz) SPINDLE LOCKED (Lathe)
SPINDLE LOCKED (Vert) COMMON (Horiz & Lathe)
SHIELD DRAIN
881A
44
Cable List
96-0284 rev H
© Haas Automation January 2010
900
901
902
903
LOW COOLANT STATUS (Mill) SPARE (Lathe)
LOW COOLANT SIGNAL
LOW COOLANT RETURN (D GROUND)
SHIELD DRAIN
910
911
912
913
115 VAC CIRCUIT BREAKER TO SOLENOIDS
LEG 1
LEG 2
SHIELD DRAIN
910A
910B
910C
910D
115VAC FROM CB4 ON MAIN POWER DIST. (Mill) SPARE 115 VAC (Lathe)
115VAC TO SERVO FAN
115VAC TO DELTA/WYE COIL (Vert & Lathe) 115VAC TO PURGE SOLENOID (Horiz)
115VAC TO WORK LIGHT (Vert) 115 VAC TO PALLET ALARM (Horiz) 115 VAC TO PART CATCHER (Lathe)
920
921
922
923
REGENERATIVE LOAD RESISTOR FOR SERVO (Vert)
LEG 1
LEG 2
SHIELD DRAIN
930
931
932
933
FUSED 230 VAC FOR COOLANT PUMP
LEG 1
LEG 2
SHIELD DRAIN
940
941
942
943
230 VAC TO COOLANT PUMP
LEG 1 (P7-A)
LEG 2 (P7-F)
SHIELD DRAIN
940A
941A
942A
943A
230 VAC SINGLE PHASE POWER TO THROUGH SPINDLE COOLANT PUMP (Horiz)
LEG 1
LEG 2
SHIELD DRAIN
950
951
952
953
954
LOW AIR PRESSURE/OIL LUBE SENSOR
LOW AIR SIGNAL (INPUT 12)
LOW AIR/OIL RETURN (D GROUND) (65) (Vert) LOW OIL LUBE SIGNAL (Horiz & Lathe)
LOW OIL PRESSURE SWITCH FOR VERTICAL TRANSMISSION (Vert) COMMON (Horiz & Lathe)
SHIELD DRAIN
950A
952
953
954
LOW HYDRAULIC PRESSURE SWITCH FOR LATHE
LOW HYDRAULIC RETURN (D GROUND)
LOW HYD PRESSURE SWITCH FOR VERTICAL TRANSMISSION
SHIELD DRAIN
960
961
962
963
LOW LUB/DOOR OPEN SENSORS (Vert) LOW TRANSMISSION OIL LUBE (Horiz)
LOW HYD PRESSURE (Lathe)
LOW LUB SIGNAL (Vert) LOW TRANSMISSION OIL LUBE SIGNAL (Horiz) LOW HYD PRESSURE (Lathe)
LOW LUB RETURN (D GROUND) (65)
SHIELD DRAIN
970
971
972
973
LOW VOLTAGE SENSOR (Vert) VECTOR DRIVE OVER-VOLT SENSOR (Horiz & Lathe)
LOW VOL SIGNAL (Vert) OVERVOLTAGE SIGNAL (Horiz & Lathe)
LOW VOL RETURN (D GROUND) (Vert) OVERVOLTAGE RETURN (Horiz & Lathe)
SHIELD DRAIN
980
981
982
983
VOLTAGE MONITOR
VOLTAGE MONITOR 0 TO
VOLTAGE MON RET
SHIELD DRAIN
96-0284 rev H
© Haas Automation January 2010
Cable List
45
990
991
992
993
994
995
HOME SENSORS
X HOME SWITCH (Vert) COMMON (DATA GROUND) Horiz & Lathe)
Y HOME SWITCH (LATHE TAIL STOCK) (Vert) X-AXIS HOME SWITCH (Horiz & Lathe)
Z HOME SWITCH (Vert) Y-AXIS HOME SWITCH (Horiz & Lathe)
HOME SWITCH RETURN (Vert) Z-AXIS HOME SWITCH (Horiz & Lathe)
SHIELD DRAIN
1000
1001
1002
1003
1004
1005
1006
SPINDLE ENCODER CABLE (LATHE TAIL STOCK)(BRUSH SYSTEMS) (Vert)
LOGIC RETURN (D GROUND)
ENCODER A CHANNEL
ENCODER B CHANNEL
+5 VDC
ENCODER Z CHANNEL
SHIELD DRAIN
1000
1000-1
1000-2
1000-3
1000-4
1000-5
1000-6
1000-7
1000-8
1000-9
1000-10
1000-11
1000-12
1000-13
1000-14
1000-15
1000-16
SPINDLE ENCODER CABLE (MOCON SIDE CONNECTION) (Horiz & Lathe)
LOGIC RETURN (D GROUND)
ENCODER A CHANNEL
ENCODER B CHANNEL
+5 VDC
ENCODER Z CHANNEL
NOT USED
NOT USED
ENCODER A* CHANNEL
ENCODER B* CHANNEL
ENCODER Z* CHANNEL
NOT USED
NOT USED
NOT USED
NOT USED
SHIELD DRAIN
NOT USED
1010
1011
1012
1013
1014
1015
1016
1017
AUX FRONT PANEL CABLE (HS-1R/RP)
COMMON FOR CYCLE START AND FEED HOLD RETURN
CYCLE START
PART READY
COMMON FOR PALLET ROTATE AND PART READY
PALLET ROTATE
FEED HOLD
SHIELD DRAIN
1020
1021
1022
1023
1024
SPINDLE TEMPERATURE SENSOR CABLE
SIGNAL
ANALOG RETURN
+5 VOLTS TO SENSOR
SHIELD GROUND
1030
1031
1032
1033
SPINDLE LOAD RESISTOR
REGEN LOAD RESISTOR FOR SPINDLE DRIVE (B1)
REGEN LOAD RESISTOR FOR SPINDLE DRIVE (B2)
SHIELD DRAIN
1040
1041
1042
1043
115 VAC TO MIKRON DOOR INTERLOCK SWITCH (OR HORIZONTAL PART READY LAMP (Vert))
LEG 1
LEG 2
SHIELD DRAIN
1050
1051
1052
1053
DOOR SWITCH WIRING THRU SUPPORT ARM
DOOR OPEN SIGNAL (INPUT 9)
DOOR OPEN RETURN (D GROUND) (65)
SHIELD DRAIN
46
Cable List
96-0284 rev H
© Haas Automation January 2010
1060
1061
1062
1063
GROUND FAULT DETECTION SENSE INPUT
+ INPUT FROM SENSE RESISTOR
- INPUT FROM SENSE RESISTOR
SHIELD DRAIN
1070
1071
1072
1073
SKIP INPUT FROM SENSOR (Vert & Lathe) PROBE INPUT OPTION (Horiz)
LOGIC COMMON (Vert & Lathe) PROBE SIGNAL (Horiz)
SKIP SIGNAL (Vert & Lathe) LOGIC COMMON (Horiz)
SHIELD DRAIN
1070A
1071A
1072A
1073A
PROBE OUTPUT (MCD RELAY BOARD M22) (OPTION) (Horiz)
UNSWITCHED LEG 1
SWITCHED LEG 2
SHIELD DRAIN
96-0284 rev H
© Haas Automation January 2010
Cable List
47
PCBS, CABLE LOCATIONS,
AND
DIAGRAMS
Shown below are three types of commonly used cable connectors. They are shown as seen when plugged
into the pc board. These diagrams are to aid in locating the pins for troubleshooting.
Red Wire
1
1
2
2
3
3
4
1
2
3
4
5
Red Wire
9
10
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
2
2
2
7
8
3
3
3
9
10
4
4
4
11
12
5
5
13
14
6
6
15
16
7
8
Friction Lock
8
2
5
7
7
3
1
6
5
4
6
1
1
5
2
3
11
4
6
1
1
Ribbon Cables
1
1
2
2
3
1
3
3
4
2
4
4
1
5
1
5
2
6
2
6
3
7
3
8
4
Mini Fit
NOTE: The numbering sequence is the same regardless of the number of pins.
Pin 1
Pin 5
Connection Example
48
Electrical Service
96-0284 rev H
© Haas Automation January 2010
MICROPROCESSOR PCB
Plug numbers and descriptions are on the next page
1MB
J6
J6
38.4K
C7
C9
D2
D3
S2
D4
BAUD
U11
D1
D5
U8
U7
D7
BT1
U3
FLASH MEMORY
D6
U8
U2
U1
BT1
D8
U24
9.6K
U15
Y1
Y1
S2
850
38.4K
850A
BT2
D1
RUN
D2
PGM
D3
CRT
D4
MSG
D5
SIO
D6
POR
D7
HALT
D8
+5V
J4
BAUD
128K
C5
RUN
512K
9.6K
C6
R52
U3
R53
U2
RUN
U1
U7
16MB
850
U22
J5
J5 J4
C37
C38
C39
850A
C40
C45
C46
C47
LINE 1:
LINE 2:
LINE 3:
C43
C82
U43
U41
SUB ASSY
U38
U39
U53
LINE 1:
LINE 2:
LINE 3:
U59
U60
U37
C75
PAL4.9X
U58
C91
C74
C76
J1
ADDRESS BUS
J2
DATA BUS
C94
C92
J3
J1
ADDRESS BUS
J2
DATA BUS
J3
STATUS D5
LEDS D1
D2
D6
U16
DRAM
J4
U17
FLASH
RAM
850
3.3V DC
BATTERY
D3
D4
D7
D9
FLASH
RAM
U35
U34
J4
STATUS
LEDS
850
DRAM
J5
850A
BATTERY BACKED UP
RAM 1MB OR 16MB
J3
850A
COLDFIRE
PROCESSOR
J14
COLDFIRE
PROCESSOR
J10
BATTERY BACKED UP
RAM 1MB OR 16MB
RUN
PGM
VIDEO
MSG
SIO
POR
STAT
+5V
J5
3.3V DC
BATTERY
D1
D2
D3
D4
D5
D6
D7
D8
USB
J13
J1
ADDRESS BUS
96-0284 rev H
© Haas Automation January 2010
J2
Coldfire DATA BUS
J3
J1
Electrical Service
J6
ADDRESS BUS
J2
DATA BUS
Coldfire2(CF2)
49
PLUG #
J1 ADDRESS
J2 DATA
J3 (CF2)
J3, J6 (CF2)
J4
J5 PORT 2
J6
J10
J13
J14
CABLE #
860
850
850A
SIGNAL NAME
 TO 
ADDRESS BUSS
DATA BUSS
SERIAL DATA
LOW VOLTAGE
KEYBOARD DATA
SERIAL PORT #2 AUX PORT
AUX BATTERY INPUT
VIDEO SIGNAL
USB DATA
NOT USED
LOCATION
MOCON-MOTIF
MOCON-MOTIF
<FROM>PSUP PCB
KEYBOARD INT.
AUX SERIAL PORT
PLUG #
____
____
____
____
____
LCD
SERVO SYSTEM BLOCK DIAGRAM
VECTOR DRIVE/
HIGH VOLTAGE
POWER SUPPLY
LOW
VOLTAGE
POWER SUPPLY
& PENDANT
ALTERNATE
MINI MILL/
OFFICE MILL
HIGH VOLTAGE
POWER SUPPLY
MEDIUM/LARGE
AMPLIFIER
HV
LV
320V DC
CURRENT
COMMAND
HV
BRUSHLESS
SERVO AMP
MTR PWR
AXIS
CABLE
ENCODER
BRUSHLESS
AXIS
MOTOR/
ENCODER
TYPICAL
MOCON BOARD
CURRENT
COMMAND
ENCODER
MTR
PWR
MTR PWR
BRUSH
CONVERTER
BOX
ENCODER
BRUSH
AXIS
MOTOR/
ENCODER
(Opt)
TYPICAL
C-AXIS COMMAND
50
BRUSHLESS
SERVO AMP
VECTOR DRIVE
OR
LARGE AMP
DELTAWYE
(Opt)
SPINDLE
MOTOR
C-AXIS ENCODER
MOTOR/
ENCODER
(Opt)
SPINDLE ENCODER
SPINDLE
ENCODER
Electrical Service
96-0284 rev H
© Haas Automation January 2010
BRUSHLESS SERVO AMPLIFIER (P/N 32-5550F)
SERVO DRIVE
CURRENT COMMAND
( FROM MOCON)
FAULT
PWR ON
HAAS
Servo Amplifier
30A
CAUTION
HIGH VOLTAGE
A
B
C
-H.V.
+H.V.
POWER TO
SERVO MOTOR
335VDC
(FROM HAAS VECTOR DRIVE,
MINI MILL POWER SUPPLY OR
OFFICE MACHINE POWER SUPPLY)
 TO 
PLUG #
CABLE #
SIGNAL NAME
X AXIS AMP
TB A, B, C
SERVO PLUG
TB -HV +HV
——610
——-
MOTOR DRIVE
X DRIVE SIGNAL
335VDC
X SERVO MOTOR
MOCON PCB
SPINDLE DRIVE
——P2
——-
Y AXIS AMP
TB A, B, C
SERVO PLUG
TB -HV +HV
——620
——-
MOTOR DRIVE
Y DRIVE SIGNAL
335VDC
Y SERVO MOTOR
MOCON PCB
SPINDLE DRIVE
——P3
——-
Z AXIS AMP
TB A, B, C
SERVO PLUG
TB -HV +HV
——630
——-
MOTOR DRIVE
Z DRIVE SIGNAL
335VDC
Z SERVO MOTOR
MOCON PCB
SPINDLE DRIVE
——P4
——-
A AXIS AMP
TB A, B, C
SERVO PLUG
TB -HV +HV
——640
——-
MOTOR DRIVE
A DRIVE SIGNAL
335VDC
A SERVO MOTOR
MOCON PCB
SPINDLE DRIVE
——P5
——-
96-0284 rev H
© Haas Automation January 2010
Electrical Service
LOCATION
PLUG #
51
SMART AMPLIFIER (P/N 93-5550J (30A) 93-3551J (45A))
LEDs
A
B
C
HH+
52
PLUG #
CABLE #
SIGNAL NAME
X AXIS AMP
TB A, B, C
SERVO PLUG
TB -HV +HV
——610
——-
Y AXIS AMP
TB A, B, C
SERVO PLUG
TB -HV +HV
 TO 
LOCATION
PLUG #
MOTOR DRIVE
X DRIVE SIGNAL
335VDC
X SERVO MOTOR
MOCON PCB
SPINDLE DRIVE
——P2
——-
——620
——-
MOTOR DRIVE
Y DRIVE SIGNAL
335VDC
Y SERVO MOTOR
MOCON PCB
SPINDLE DRIVE
——P3
——-
Z AXIS AMP
TB A, B, C
SERVO PLUG
TB -HV +HV
——630
——-
MOTOR DRIVE
Z DRIVE SIGNAL
335VDC
Z SERVO MOTOR
MOCON PCB
SPINDLE DRIVE
——P4
——-
A AXIS AMP
TB A, B, C
SERVO PLUG
TB -HV +HV
——640
——-
MOTOR DRIVE
A DRIVE SIGNAL
335VDC
A SERVO MOTOR
MOCON PCB
SPINDLE DRIVE
——P5
——-
Electrical Service
96-0284 rev H
© Haas Automation January 2010
SYSTEM BLOCK DIAGRAM - HIGH/LOW VOLTAGE
INPUT VOLTAGE
195-260V AC
(353-480V AC)
12V DC
MAIN
POWER
DISTRIBUTION
195-260V AC
(353-480V AC)
INPUT
MAIN
TRANSFORMER
OPERATOR
PENDANT
12V DC
230V AC
115V AC
DC
MTR DRV
BOARD
(Opt)
230V AC
VIDEO, KEYBOARD, AND JOG
(FLOPPY DRIVE & RJH)
BRUSHLESS
SERVO
AMPLIFIERS
(X, Y, Z, A, 5TH
TC (SS) OPTION
(Vert)
335V DC
(325V DC
Horiz)
FAULTS
PWR
CMDS
SPINDLE COMMANDS
CMDS
STATUS
POSITION DATA
HOME
SWITCH
(Vert &
Lathe)
230V AC
DISCRETE
INPUTS
AND
OUTPUTS
CMDS
230V AC
TSC
OPTION
(Vert)
SENSORS
CHIP CNVYR
MTRS
(Opt)
FAULTS
SPINDLE ENCODER
SERVO MOTORS
(Opt)
SP PWR
MICRO
PROCESSOR
(CNC UNIT)
CHIP CNVYR
BOARD
HAAS
VECTOR DRIVE
EXCESS PWR
M CODE
RELAY
BOARD
(Opt)
LOW VOLTAGE
115V AC
12V DC
230V AC
REGEN
ASSY
PWR
WYE-DELTA
CONTACTORS
(Opt)
PWR
SPINDLE MOTOR
LIMIT SWITCHES
GEAR BOX SWITCHES
TOOL CHANGER/OVERHEAT SENSORS/
LOW LUBE/LOW COOLANT/SOLENOIDS
WYE/DELTA CONTACTORS*
*CONTACTOR COILS FOR WYE/DELTA CONTACTORS
ARE DRIVEN THROUGH I/O WITH 120V AC.
COOLANT PUMP &
CHIP CONVEYOR
96-0284 rev H
© Haas Automation January 2010
Electrical Service
53
POWER PCB VERSION K/L
P2
P24 P4P9
PRI
F1
TO T5
SEC
F3
740
230V IN
NE1
NE3
GFI
COOLANT PUMP
TSC COOLANT PUMP
ON
ON
ON
P10
CHIP CONVEYOR
AUTO OFF/CONTACTOR
73
1A 250V
ON/OFF
+5V
GND
71
NE5
+5V
GND
GND
+12V
NE6
FAIL
170
IOPCB
GND
+5V
+12V
GND
GND
MOTIF
GND
MAIN 115V XFRMR
(FOR 3 PHASE ONLY)
PASS
+12V
-12V
90A
+12V
AMPS
+5V
TS1
P23
P22
BRACKET
REV "L" HAS
NO BRACKET
P1
90A
90C 96
94/N
ON
AC GROUND
90C
90C
90C
90C
7A 115V
10A 230V
10A 230V
5A 230V
MAIN
XFRMR
GFI
COOLANT PUMP
TSC COOLANT PUMP
CHIP CONVEYOR
CB2
CB6
CB3
CB5
CB4
90C
90C
P13 P14 P15 P16 P17
PLUG #
P1
P2
P3
P4
P5
P6
P7
P8
P9
P10
P11
P12
P13
P14
P15
P16
P17
P18
P19
P20
P21
P23
P22
P24
P25
P27
P28
P30
P33
P34
P35
P36
ON
10A 115V
115V SPARES
54
+5V
Z1
P18
-12V
90A
P25
P27
P30
LE1
-12V
Z4
LE3
GND
GND
+12V
-12V
+5V
MOCON2
Z3
+5V
-12V
+12V
GND
GND
GND
MCD2
+12V
GND
+12V
+12V
P28
PHASE DETECT
90A
95
P12
P33
CABLE #
94-96
90C
90A
Jumper
90B
90A
90A
Jumper
Jumper
77/79
90A
90C
90C
90C
90C
90C
90C
860
90
930
160
170
740
T5
71, 72, 73
860
860
860
860
860A
860
92A
90
3PH 115V TO IOPCB
92A
P19
P36
930
GFI/
WORKLIGHT
P6
LE2
115V INPUT
P7
SW DOOR FAN
MCD1
P3
MONITOR
P11
90A
LOW VOLT PS
DELTA-WYE
SERVO FAN
PROBE PS
P5
P8
LV INPUT
P35 P34
POWER SUPPLY ASSY
PSUP-K
COOLANT/TSC
P20
SIGNAL NAME
3-PHASE
115VAC
115VAC
 TO 
115VAC
115VAC
115VAC
+12/-12/+5 VDC In
230VAC 3/PHASE
115VAC
115VAC
115VAC
115VAC
115VAC
115VAC
115VAC
115VAC
3PH 115VAC
230V CLNT PUMP/TSC
Chip Conv. 230V 3PH
Auto Off/Contactor
On/Off
Main Cont Frmr
230VAC IN
+12/+5 VDC
+12/+5 VDC
+12/-12/+5 VDC
+12/-12/+5 VDC
+12 VDC
+12 VDC
Electrical Service
160
CHIPC 230V
P21
LOCATION
Transformer
LVPS
Spare
Jumper
Switch Door Fan
Servo Fan
Delta-Wye
From LVPS
Jumper
Transformer
Front Pnl P.S. (spare)
spare
spare
spare
spare
spare
spare
Amplifiers
I/O PCB
I/O PCB
I/O PCB
Contactor K1/ I/O PCB
Front Panel (SKBIF)
To T5
From Contactor K1
I/O PCB
Motif PCB
spare
Mocon 2 PCB
SMTC PCB
MCD Relay PCB
Worklight
PLUG#
P56
P44
P39
P42
J20
P60
P15
P15
P2
P2
96-0284 rev H
© Haas Automation January 2010
P6
C9
230VAC
+12V
C14
TP3
Q3
CR6
12VRTN
C1
P3
DZ4
C12
CR4
CR5
860A
CR7
P1
U1
TP2
U4
LE2
JP1
T1
C19
33-0982
33-4150
32-7044
33-9861
33-0167A
33-0492
U6
U5
970
C31
U7
U8
R1
CR1
REGEN
VOLTMON
96-0284 rev H
© Haas Automation January 2010
CABLE #
32-5827A
FAULT
PLUG #
P1
P2
P3
P4
P5
P6
P7
P8
P5
ISP
320VDC
P2
FAULT
P8
U3
CR10
C11
TP1
320VRTN
CR9
U9
C28
CR18
DZ2
R7
R14
C3
Q1
R5
K1
CR12
CR2
U2
CR3
Q2
R21
R23
VR1
DZ3
HIGH
VOLTAGE
PRESENT
C13
P7
BL 320V PS
LE1
DZ1
C7
C8
C10
OFFICE MILL POWER SUPPLY
P4
LOCATION
Office machine main transformer LV 1PH
N/A
Cable 860A +5/+12 GND I/O PCB
Cable 970 Vector Drive Over Volt
40 Ohm Regen Resister
Cable Volt Monitor
Cable 230V in to BL320VP
Cable 320VDC to amp
Electrical Service
PLUG#
Main transformer
I/O PCB P60
I/O PCB P11
MOCON P17
PSUP (34-4075K) P10
320VDC AMP TB
55
I/O PCB VERSION W, Z, AA, AB
K37
C52
C42
CR14
CR15
CR9
K2
P72
P81
P62
P61
P79
P78
Q35
CR30
Z4
R42
K11
K12
D18
K10
C46
P10
P80
P13
P63
R44
C87
C78
Z7
Z10
C86
P14
Q19
TP3
COMPONENT
MARK
P16
C69
*T1
CR1
U73
C70
CR33
*
P17
P53A
P52
Q16
L3
Q5
C59
C75
P53
Q15
CR35
COMPONENT
MARK
P55
Q14
CR5
C85
P51
Q41
P65
P47
TP42
P18
P20
LINE 1
LINE 2
LINE 3
Q44
P22
J1
Q30
P67
P48
K7
Q45
Q28
P68
P50
MILL
LATHE
Q31
P23
P73
Q10
Q11
P66
P46
Q2
P74
P21
Q29
P69
P25
Q27
P76
Q46
P26
Q7
C9
R122
P82
P70
PCOOL SOLID STATE RELAY DTR PCB
CR16
Q37
Q23
Q20
Q21
Q22
CR25
P32
P33
P36
P37
P43
Q8
K32
C14
Q9
P37A
P34
Q43
P41
Q4
P29
Q3
P83
P36A
C15
Z6
CR11
R51
P28
P31
P44
TP7
Z9
CR10
C31
P30
Q6
TP6
Z8
R127
P27
P42
P45
Q36
P24
P49
Q42
L1
P19
P56
P54
Q13
P64
L2
P15
D21
R7
CR34
D22
TP2
J9
Q32
P12
R311
D20
Q33
P11
P71
D19
K9
Z3
Z1
Q1
D17
P8
Z2
R5
P9
J2
K1
D1
P6
CR8
R52
R66
CR13
R4
R146
CR12
R3
P77
P75
Q26
P59
Q40
K36
P2A
P5
P7
K35
K38
Q39
K34
R145
K33
P4
P58
CR7
P57
TP8
P2
P3
P60
P1
D10
TB2
TB1
P1
P38
P39
Q12
P40
P35
200
PLUG #
P1
P2
P2 (Lathe)
P2A
P3
P3 (Lathe)
P4
P4 (Lathe)
P5
P6
P7
P8
P9
56
CABLE #
140B
820B
820
820B
820
820
900
900
770
770A
770B
1050
1050A
 TO 
LOCATION
Chip Conveyor Ckt Bd (32-3072)
TC in/SMTC Pkt down
TT Unlock/Lock
Shuttle In/Out
TC out/SMTC pkt up/Tool #1/TC mark
C-axis Engage/Disengage
Low TSC press
Spare
E-Stop Sw A
E-Stop Sw B
E-Stop Sw C
Door Open A
Door Open B
Electrical Service
PLUG #
P3
96-0284 rev H
© Haas Automation January 2010
PLUG #
P10
P11
P12
P12 (Lathe)
P13
P14
P15
P15 (Lathe)
P16
P16 (Lathe)
P17
P17 (Lathe)
P18
P18 (Lathe)
P19
P19 (Lathe)
P20
P20 (Lathe)
P21
P21 (Lathe)
P22
P23
P23 (Lathe)
P24
P24 (Lathe)
P25
P25 (Lathe)
P26
P26 (Lathe)
P27
P27 (Lathe)
P28
P28 (Lathe)
P29
P29 (Lathe)
P30
P31
P31 (Lathe)
P32
P32 (Lathe)
P33
P33 (Lathe)
P34
P34 (Lathe)
P35 (35A)
P35 (Lathe)
P36
P36A
96-0284 rev H
© Haas Automation January 2010
CABLE #
100
970
950
950
960
830
890
890
780
780
410
410
790
790
190
190
190A
190A
240
240
1070
420
420
440
440
450
450
460
460
470
470
480
480
1040A
1040A
1040
230
230
250
250
260
260
270
270
200
200
280
280
 TO 
LOCATION
PLUG #
M-Fin
VD Over Volt
VD J1
Low Air/Low Oil/VB low chill pressure
Low Air/Hyd. pressure
Low Lube
Regen Overheat
SPDB Open/Closed
Spare/Gearbox
2nd VD OV/contactor On/counterbalance
Spare
APC Door Open , VB Clamshell
TS Foot Sw/Sub Spndl Chuck Foot Switch
APC Pin Clear - door open/closed
Probe Home
Remote Unclamp Sw
Chuck Unclamp Foot Sw
Remote Unclamp B
Not Used
Spare 3, APC Pallet Home / Grnd fault/ pal up,dwn
BF Load Bar/Q/RPL
Skip
M22
Spare 4, APC #2 pin clr / pal home
Spare (VTC: Pocket up/down/tool one/TC Mark)
Spare 6, Auto Door Open / Spare
Auto Door Open
Spare 7, APC #2 door open
Steady Rest Foot Switch
Spare 8, APC #2 door closed
Apl Rotator Mark, Home (VTC: Low Way/SS Lube)
Spare 9, SMTC mtr stop / SMTC origin/ /smtc cl uncl
Spare (VTC: Motor Stop/Origin/Cl/Uncl)
Spare 10, APC door closed/Open / APC pal clamped
Spare 10 (VTC: Rem Uncl/SS DB Open/Closed)
CE Door LK
Not Used
CE Door LK
5th Axis Brake
T/S Fwd
HTC shut, APC Door open, VR Shut In
T/S Rev
TSC Purge
T/S Rapid (VTC: Purge)
APC Pal Ready Lt
Spare (12V Output)
Spigot CW/CCW
Spare (VTC: Spigot CW/CCW)
Spindle Lube
Worklight
Electrical Service
57
PLUG #
P37
P37 (Lathe)
P38
P39
P39 (Lathe)
P40
P40 (Lathe)
P41
P41 (Lathe)
P42
P43
P44
P44 (Lathe)
P45
P45 (Lathe)
P46
P46 (Lathe)
P47
P47 (Lathe)
P48
P48 (Lathe)
P49
P49 (Lathe)
P50
P50 (Lathe)
P51
P51 (Lathe)
P52
P52 (Lathe)
P53 (P53A)
P54
P55
P55 (Lathe)
P56
P57
P57 (Lathe)
P58
P58 (Lathe)
P59
P59 (Lathe)
P60
P61
P62
P63
P64
P65
P66
P67
P67 (Lathe)
58
CABLE #
 TO 
140A
140A
140
160
160
300
300
300A
300A
170
940
930
930
940A
940A
390
390
350
350
120
120
350A
350A
130
130
430
430
710
710
880C (880D)
880B
880A
880A
90
Haas P/N 33-0815B
810A
810A
810
810
860A
540
540A
550
520
510
1100 (M27)
1110 (M28)
M28
LOCATION
PLUG #
Chip Conv Enable
Not Used
Chip Conveyor
230V Coolant, Chip Conv Power PSUP P21
250V for Chip Conv.
250V Oil Pump/Luber
SP Fan/Oil Pump/Luber
SP Fan/Oil Pump
Gear Box Oil Pump
Auto Off
PSUP P23
Coolant Output
250V TSC/Cool Input Power
PSUP P20
230V for Coolant
TSC Coolant
TSC Cool. Out.
hp Coolant
PSUP P20
4th Axis Brake
Spin Brake (Live Tooling Hyd Brake)
Servo Brake
Trans P6
Hyd Pump En
Coolant Over Temp
Not Used (Jumper)
Servo Brake, Hyd En
Trans P4
Brake Release
TSC Over Temp
Not Used (Jumper)
Pallet up
APL Light/BF Extend Push
Spare, APC #1 pal ready #1,2
APL Gripper Grip 1, Grip 2
Wye-Delta Switch
Gearbox, High/Low Gear
Tool unclamp precharge (spindle head solenoids)
Chuck Unclamp/TT Out/MLB Fast Push
115V 3ph power
PSUP P19
TC Jumper or SMTC brake resistor
External TC Motor Resistor (Jumper)
T.C. in/smtc ATC fwd / APC chn drv en/rev
Spare
T.C. CW/ SMTC CRSL CW
Auto Dr, BF Id Bar/Q, APL Rtr (VTC: Car CW/CCW)
+5/+12V Logic Pwr (LVPS) (I/O PCB)
PSUP P27
Outputs Cable 24-55 (I/0PCB)
MOCON P14
To 2nd M-code PCB
MCD Relay P1
Inputs Cable
MOCON P10
Outputs Cable 8-15
MOCON P12
Outputs Cable 0-7
MOCON P11
Air Blast
Beeper
Sub Spin Chuck Sol
Electrical Service
96-0284 rev H
© Haas Automation January 2010
CABLE #
 TO 
310
310
220
220
530
500
770C
Haas P/N 33-1966
M26
710A
1160
1070
350A
350A
PLUG #
P68
P68 (Lathe)
P69
P69 (Lathe)
P70
P71
P72
P73
P74
P75
P76
P77
P78
P79
P80
P81
P82
P83
TB1
TB2
TB2 (Lathe)
LOCATION
PLUG #
Pallet CW/CCW, Auto Door open
APC Door open
Air Door, Pckt Up/Down,VR Shtle Out, VB Clamshell
C-axis Engage
Outputs Cable 16-23
MOCON P13
N/A
E Stop D/E
TSC Enable
Spare
NSK Spindle
Oil Squirt (MOM)
Probe
Axis Brake
Axis Brake
N/A
E-Stop
Oil Squirt (MOM) Low Oil
From GFI for Worklight
M-Code Outputs (Probe, M-Fin, User Spare)
M-Code Outputs
User Spare
770C
1130
TB 12 x 200 (M21-24)
TB 3 x 200 (M25)
TB 3 x 200 (M25)
DISCRETE INPUTS
+12V
Typical Discrete Input Circuit
(C) = Switch Normally Closed; (O) = Switch Normally Open
MACRO
CABLE
HORIZONTAL
VERTICAL
(C) TC In
(O) SMTC Pkt Dwn
(C) TT Unlock
TL TC Home
1001
820 P2/3
TC Out
SMTC Shuttle Out
EC-400 (O) SMTC Pkt Up
(C) TC Out
(O) SMTC Pkt Up
(C) TT Lock
TL TC Mark
1002
820 P3
PC DB Down
EC-400 (O) SMTC Tool #1
(C) Tool #1
(O) SMTC Tool #1
*C-axis Disengage
1003
900 P4
Lo TSC Press
EC-400 Lo TSC Press
Lo TSC Press
Spare
1004
820 P3
PC Collet Down
EC-400 SMTC TC Mark
(C) TC Mark
(C) SMTC TC Mark
*C-axis Engage
1005
890 P15
(O) High Gear
(O) High Gear
High Gear
1006
890 P15
(C) Low Gear
(C) Low Gear
Low Gear
1000
820 P2/3
96-0284 rev H
© Haas Automation January 2010
TC In
SMTC Arm Mark
EC-400 (O) SMTC Pkt Dwn
Electrical Service
LATHE
59
MACRO
CABLE
HORIZONTAL
VERTICAL
E-Stop
E-Stop
1008
1050 P8/9
(O) Door Open
(O) Door Open
Door Open
1009
100 P10
M-FIN
M-FIN
GR Plasma Confirm
M-FIN
1010
970 P11
Over Volt
Over Volt
Over Volt (not used)
1011
950 P12
Low Air
Low Air
Low Air
1012
960 P13
Low Way Lube
Low Way Lube
Low Way Lube
1013
830 P14
Overheat
Overheat
Overheat
1014
890 P15
(C) SP DB Open
(C) SP DB Open
Gearbox Low Oil
1015
890 P15
(C) SP DB Closed
(C) SP DB Closed
Spare
1016
890 P15
Spare
EC-400 3rd DB Pos Sw
3rd DB Pos Sw
Spare
1017
780 P16
2nd VD OV
2nd VD OV
Spare
1018
780 P16
Contactor On
Contactor On
Spare
1019
780 P16
Cntr Balance
Cntr Balance
Spare
1020
950 P12
Gearbox Low Oil
Gearbox Low Oil
Low Hydraulic
1021
410 P17
Air Door Sw
EC-400 TC Door Open
Old EC-300 Tool Door Open
GR Air Curtain APC
CE Door Open
(O) *TS Foot Sw
(O) *Sub Spin Chck Ftsw
1022
790 P18
PC Pallet CW
EC-400 PP Pallet Lift
(C) APC Pin Clr #1
(O) MD Op Door Open
(O) *Probe Home
1023
790 P18
PC Pallet CCW
EC-400 PP Pallet Lower
(C) APC Pin Clr #2
(O) MD Op Door Closed
1024
190 P19/20
PC Op Station Locked/
Frnt Door
BF End of Bar
Rem Uncl
(O) Chuck Uncl Foot Sw
1025
500 P71
LO Phase/Low Grease
LO Phase/Low Grease
LO Phase/Low Grease
1026
240 P21
PC Pallet Up
BF Load Bar
(C) APC Pal #2 Home
(C) Old MD Pal Up
(C) New MD Pal Unclamp
(C) BF Load Bar
1027
240 P21
PC Pallet Down
BF Load Q
EC-1600 Clamp Press
(C) APC Pal #1 Home
(C) Old MD Pal Down
BF Load Q
Grnd Fault
Grnd Fault
Grnd Fault
1007
770 P5/6/7
1028
60
E-Stop
LATHE
1029
1070 P22/77
Skip
Skip
Skip
1030
200 P35
Possible P-Cool
EC-400 Spigot
Spigot
(C) BF End of Bar
1031
140B P1
Chip Conveyor
Chip Conveyor
Chip Conveyor
1032
420 P23
Mori Notch Pin In/
SMTC Arm In
EC-400 Pallet Clamped
(C) APC #2 Pin Clr #1
Pocket Down
Electrical Service
96-0284 rev H
© Haas Automation January 2010
MACRO
CABLE
HORIZONTAL
VERTICAL
LATHE
1034
420 P23
Mori Tool 1/SMTC Arm CCW
EC-400 Pallet Clamp Error
(C) APC #2 Pal #2 Home
Tool One
1035
420 P23
Mori TC Mark/SMTC Arm CW (C) APC #2 Pal #1 Home
TC Mark
1036
440 P24
(O) Auto Door Open
(O) Auto Door Open
1037
440 P24
Mori Arm In/SMTC Cage
Door Open
EC-400 SMTC Cage
Door Open
Mori Arm Out
1038
450 P25
Mori Arm CCW
APC #2 CE Door Open
1039
450 P25
Mori Arm CW
1040
460 P26
Mori Slide 1/2 Way
APC #2 Door Closed
(O) APL Rotator Mark
1041
460 P26
Mori Slide Left
APC #2 Door Open
(O) APL Rotator Home
1042
470 P27
Mori Swing Spin/SMTC
Shuttle Mark
EC-400 SMTC Motor Stop
SMTC Motor Stop
Motor Stop
1043
470 P27
Mori Swing Mag/SMTC
Slide at Chain
EC-400 SMTC Origin
SMTC Origin
Origin
1044
470 P27
Mori Cage Door Open/
SMTC Slide at Standby
EC-400 SMTC Cl/Uncl
SMTC Cl/Uncl
Cl/Uncl
1045
470 P27
Mori Slide Right/SMTC
Slide at Spindle
EC-400 Tool Transer
1046
480 P28
EC-400 8-pos TC Unlock
APC Door Closed
APL Door Closed
1047
480 P28
EC-400 8-pos TC Lock
APC Door Open
APL Door Open
1048
480 P28
EC-400 8-pos TC Mark
APC Pal Clamped
SS DB Open
1049
480 P28
EC-400 8-pos TC Home
APC Pal In Position
SS DB Closed
1050
1130 P82
EC-400 Oil Squirt Low Oil
Oil Squirt Low Oil
Oil Squirt Low Oil
1033
420 P23
96-0284 rev H
© Haas Automation January 2010
Mori Man Tool Rls In/
SMTC Arm Out
EC-400 Pallet Unclamped
(C) APC #2 Pin Clr #2
Pocket Up
APL Load Station Door Open
*Steady Rest Ftsw
Spare for Foot Sw
Electrical Service
61
DISCRETE OUTPUTS
I/O PCB
MOCON PCB
0VDC
K
+12VDC
LE 1
V
H
V
Typical 115/230V Output Circuit (Kxx)
115/230V
SOLENOID/PUMP
N
Note that voltages other than 115/230V are provided by specialty output circuits. These are identified with an asterisk.
62
MACRO RELAY CABLE
HORIZONTAL
VERTICAL
LATHE (SL)
1100
K1
350 P47/49
Servo Pwr/Brk (EC)
Servo Brake (HS)
Servo Pwr/Brk
Hyd Pump En
115V
1101
K2
430 P51/75
TC Door Open (EC)
PC Pallet Up (HS)
APC Pal Clamp
Old MD Pal Up
New MD Pal Unclamp
GR Air Curtain
NSK Spin Fwd
APL Light
BF Extd Push
115V
1102
K3
710 P52/75
PC Pallet Up (EC)
P-Cool (HS)
BF Collet Open (HS)
APC#1 Pallet Ready 1
NSK Spin Rev
APL Grip 1
115V
1103
K4
710 P52
PC Pallet Down (EC)
BF Collet Close (HS)
APC#1 Pallet Ready 2
Robot Fix Uncl
APL Grip 2
115V
1104
K5
390 P46
4th Axis Platter Up (EC)
4th Axis Brake (HS)
4th Axis Brake
Spin Brk
115V
1105
K6
940 P43
Coolant
Coolant
Coolant
230V
1106
K7
170 P42
Auto Off
Auto Off
Auto Off
24VAC*
1107
K8
300 P40/41
Sp Fan
Oil pump
Luber
Sp Fan
Oil pump
Luber
Sp Fan
Oil pump
Luber
115V
1108
K9
810 P58/59
SMTC ATC Fwd (EC)
Tool Xfer Fwd (EC)
PC Main DB Fwd (HS)
BF Load Q (HS)
TC In
SMTC ATC Fwd
APC Chn Drv Fwd
APL Rotator CW
BF load Q
8-pos TC Rotate
170VDC*
paired w/
K10
1109
K10
810 P58/59
SMTC ATC Rev (EC)
Tool Xfer Rev (EC)
PC Main DB Rev (HS)
BF Load Bar (HS)
TC Out
SMTC ATC Rev
APC Chn Drv Rev
APL Rotator CCW
BF Load Bar
8-pos TC Rotate
170VDC*
paired w/
K9
Electrical Service
VOLTAGE
96-0284 rev H
© Haas Automation January 2010
MACRO RELAY CABLE
1110
K11 810 P59
HORIZONTAL
SMTC Crsl CW (EC)
TC In (HS)
VERTICAL
TC CW
SMTC Crsl CW
LATHE (SL)
Auto Door Mtr Open
VOLTAGE
170VDC*
paired w/
K12
1111
K12
810 P59
SMTC Crsl CCW (EC)
TC Out (HS)
TC CCW
SMTC Crsl CCW
Auto Door Mtr Close
170VDC*
paired w/
K11
1112
K13
880A P54/55
High Gear (EC)
4 High Gear (HS)
High Gear
High Gear
115V
1113
K14
880A P54/55
Low Gear (EC)
4 Low Gear (HS)
Low Gear
Low Gear
115V
1114
K15
880A P55
Tool Unclamp
Tool Unclamp
Chuck Unclamp
115V
1115
K16
880A P53
P53A/P55
Delta-Wye Switch
Delta-Wye Switch
Laser Hi Press Assist
Delta-Wye Switch
115V
1116
K17
200 P35
Spigot CW (EC)
P-Cool (HS)
Spigot CW
TL TC CW
+12VDC*
1117
K18
200 P35
Spigot CCW (EC)
P-Cool (HS)
Spigot CCW
TL TC CCW
+12VDC*
1118
K19
260 P34
Pallet Ready Light
APC Pal Ready
1119
K20
270 P33
TSC Purge
TSC Purge
T/S rapid
OM live tool #2
115V
1120
K21
880A P55
Precharge
Precharge
Laser Low Press Assist
TT Out
TL TC up
115V
1121
K22
250 P32
PP Pallet Lift (EC)
VR Shut In
HTC Shuttle (HS)
APC Door Open
Mori Manual Tool Rls (HS) Old MD Niagra Clnt On
T/S Rev
OM live tool #3
115V
1122
K23
230 P31
5th Axis Brake
5th Axis Brake
T/S Fwd
OM live tool #1
115V
1123
K24
1040 P29/30
Door Interlock
CE Door Lock
CE Door Lock
115V
1124
K25
310 P68
PC Pallet Clamp (EC)
PC Pallet CW (HS)
APC#2 Door Open
Auto Door Clutch
115V
1125
K26
310 P68
PC Air Blast
Proto Flood Coolant
PC Pallet CCW (HS)
DES Vac Enable
GR Plasma Head Down
Parts Catcher
115V
1126
K27
220 P69
SMTC Pkt U/D Sol (EC)
Air Door (HS)
VR shut out
VB clamshell
SMTC Pkt U/D Sol
Laser Vac Enable
C-Axis Engage
115V
1127
K28
940A P45
TSC Clnt
TSC Clnt
P73 HP coolant
230V
1128
K29
280 P36
Spindle Lube
Spindle Lube
Spindle Lube
115V
1129
K30
280 P36
Worklight
Worklight
Worklight
115V
1130
K31
140 P37/38
ChipC En
ChipC En
ChipC En
230V*
paired w/
K32
96-0284 rev H
© Haas Automation January 2010
Electrical Service
+12VDC*
63
64
MACRO RELAY CABLE
HORIZONTAL
VERTICAL
LATHE (SL)
1131
K32
140 P37/38
ChipC Rev
ChipC Rev
ChipC Rev
230V*
paired w/
K31
1132
K33
M21 TB1
M-Fin
Shower Coolant (EC)
Mori Notch Pin Out (HS)
M-Fin
GR Plasma Start
HIT Index
M-Fin
Relay
Contact*
1133
K34
M22 TB1/P77 Probe
Probe
Laser Aim Beam On
Probe
Relay
Contact*
1134
K35
M23 TB1/P77 Probe (EC)
Mori Mag CW (HS)
Laser Shut Open
Spin Probe Enable`
Spin Probe Enable
Relay
Contact*
1135
K36
M24 TB1
HIT Go Home
Probe Arm Up
Relay
Contact*
1136
K37
M25 TB2/P76 Oil Squirter (MOM)
Oil Squirter (MOM)
Probe Arm Down
Oil Squirter (MOM)
Relay
Contact*
1137
K38
810A P58/74
PC Main DB En (HS)
APC Chn Drv Pwr En
8-pos TC Rotate
160VDC*
1138
K39
M27 P66
Air Jet Blast (EC)
PC Air Blast (HS)
Gantry Oil
Air Blast
Air Blast
ML BF push
Air Closer Enable
Chuck Clamp
115V
1139
K40
M28 P67
PC Beeper
APC Beeper, Airblast
Old EC300 Tool Door
New MD Airblast
Sub Spin Chuck
115V
Flood Coolant (EC)
Mori Mag CCW (HS)
Electrical Service
VOLTAGE
96-0284 rev H
© Haas Automation January 2010
J16
J11
Z1
RS232 TO CPU
P9
J18
P7
+
TP8
U4
D3
TP7
TP13
C2
+
C5
Y2
PAL PROGRAM
+5V
WORK LIGHT JOG HOOK
RP25
J2
TO RJH
CP1
TP9
J8
P6A
RP22
MAIN CAB
P2
J1
JOG
750C
RP1 RP2
U12
U2
U18
Y1
J14
RP26
CP13
MCU PROGRAM
CP11
TP13
J5
TP4
U8
TP3
TP10
CP12
RP21
D1
TP1
LINE 1:
LINE 2:
LINE 3:
J4
D6
TP5
TP11
GND
D5
TP14 TP6
J15
U1
D4
U3
TP15
TP12
U9
RP8
GND
CP10
U17
AUX
FRONT
PANEL
P6
U16
J10
U10
R18
ADJUST
OPT SW
U15
P4
METER
U14
CP8
RP17
RP15
CP9
RP18
RP16
CP4
RP5
RP3
CP5
RP6
RP5
FRONT PANEL HARNESS
U7
D2
RP7
JOG ENCODER
J20
ON
+12V
+
L1
RP19
J3
DIs RJH E/S
TP18
C36
CR1
J12
+15V/+12V
RP23
+
RS232
J22
C60
GND
RP20
C12
SUPPLY
+15V/+12V
GND
RP24
J19
+3.3V
OFF
TP16
TO ESTOP
TOOL CHANGER
SW1
+
SPKR
P5
C6
U6
J17
J9
PAL2
+
SPEAKER
BEEP
P8
TO RJOG
PWR ON/OFF
PALLET RDY
USB OUT
C14
PAL1
J23
J6
P1
U13
KEYPAD
1
VIDEO DATA
ON
SW2
TO LCD PANEL
TP2
U11
STROBE
J13
Q1
U5
U19
COLOR
USB IN
Q3
C59
C49
Q2
BEACON
C10
J21
BACKLIGHT
Q4
+
P10
+
C32
+
+
HANDLE JOG (34-4241D)
WITH
OFF
SERIAL KEYBOARD INTERFACE PCB
P3
START/HOLD
The Serial Keyboard Interface PCB (SKBIF) provides:
•
•
•
•
•
connection between the operator keypad and the main processor
differential receiver for video data
power for the backlight of the LCD
connection between the jog handle (remote jog handle) and the main processor
various machine-dependent functions.
The SKBIF is backward-compatible for all previous mill, lathe and simulator hardware and software versions.
NOTE: The video data connectors are only used by machines with a 15” monitor. Machines
with a 10” monitor have a separate differential card in the LCD panel connected
directly to the main processor.
Connector Descriptions
P1
This connector supports an RS-232 ribbon cable that sends and receives data from the Main Processor.
P2
This connector is used for the operator keypad interface. It receives keyboard data, which it sends to
the SKBIF micro-controller (U8), where the data is processed and sent out over the RS-232 line to the
Main Processor.
96-0284 rev H
© Haas Automation January 2010
Electrical Service
65
P3
This connector is wired directly to the Cycle Start and Feed Hold buttons on the operator pendant front
panel. The signals are sent to the SKBIF micro-controller (U8), where the data is processed and
sent out over the RS-232 line to the Main Processor.
P4
This connector is used on machines with an an analog Load Meter and is wired directly to the Load
Meter on the operator pendant front panel. The signals are sent to the SKBIF micro-controller (U8),
where the data is processed and sent out over the RS-232 line to the Main Processor.
P5
This connector is wired directly to the Beeper on the operator pendant front panel. The Main Processor
sends On/Off commands to the Beeper, while the ‘beeps’ associated with each key stroke are
controlled by wiring between P5 and the SKBIF micro-controller (U8).
P6
This connector is wired directly to the Cycle Start and Feed Hold buttons on a Remote Jog Handle or
an auxiliary front panel. It handles Part Ready and Pallet Rotate signals as well as mill Pallet 6
scheduling. The signals are sent to the SKBIF micro-controller (U8), where the data is processed and
sent outover the RS-232 line to the Main Processor.
P6A This connector is wired directly to an auxiliary front panel (such as a Tool Changer panel). It handles
Cycle Start, Feed Hold, Part Ready and Pallet Rotate signals as well as mill Pallet 6 scheduling. The
signals are sent to the SKBIF micro-controller (U8), where the data is processed and sent out over the
RS-232 line to the Main Processor.
P7
This connector is used by mills utilizing a pallet changer. Pallet 1 and 2 scheduling signals are sent to
the SKBIF micro-controller (U8), where the data is processed and sent out over the RS-232 line to the
Main Processor.
P8
This connector is used by mills utilizing a pallet changer. Pallet 3 and 4 scheduling and vertical mill MD
Load Table Rotation signals are sent to the SKBIF micro-controller (U8), where the data is processed
and sent out over the RS-232 line to the Main Processor.
P9
This connector is wired to the Enhanced Remote Jog Handle. RJH(E) signals are sent to the SKBIF
micro-controller (U8), where the data is processed and sent out over the RS-232 line to the Main
Processor.
P10 This connector is wired to the beacon on the operator pendant. Thin pendant signals are sent in over
the RS-232 line from the Main Processor to the SKBIF micro-controller (U8), which turns the beacon on
and off. A regular operator pendant has the beacon connected directly to the I/O Board, which turns the
beacon on and off.
P11 This connector is not currently used.
P12 This connector is not currently used.
66
J1
This connector is wired to the Jog Handle on the operator pendant front panel. Jog Handle signals are
sent to the SKBIF micro-controller (U8), where the data is processed and sent out over the RS-232 line
to the Main Processor. If a cable is present on J3, jog handle signals are sent to the MOCON from J3.
J2
This connector is wired to the Remote Jog Handle. RJH signals may be sent to the SKBIF
microcontroller (U8), where the data is processed and sent out over the RS-232 line to the Main
Processor. Alternatively, the RJH signals may be connected to J3, from where the data is sent directly
to the MOCON.
J3
This connector is wired to the Remote Jog Handle connector J2. RJH data is sent from J3 directly to the
MOCON.
J4
This connector is wired to the pendant’s Worklight Switch on a vertical mill thin pendant. Worklight
Switch signals are sent to the SKBIF micro-controller (U8), where the data is processed and sent out
over the RS-232 line to the Main Processor.
Electrical Service
96-0284 rev H
© Haas Automation January 2010
J5
Combines E-Stop, On/Off, Jog Handle, Cycle Start/Feed Hold, Beeper and Work Light signals.
J6
This connector receives video data from the Main Processor. The video data exits the SKBIF from J16
and is sent directly to the LCD panel.
J7
This connector is not currently used.
J8
This connector is wired to the Enhanced Remote Jog Handle Switch on vertical mills. When the RJH(E)
is placed in its receiver cradle, a HOOK signal is received over J8 and sent to the SKBIF microcontroller
(U8), where the data is processed and sent out over the RS-232 line to the Main Processor.
J9
This connector is used by horizontal mills utilizing a tool changer. Tool Changer Magazine CW/CCW,
Manual, and Tool Release Pedal signals are sent from the Tool Changer box, received over J9 and sent
to the SKBIF micro-controller (U8), where the data is processed and sent out over the RS-232 line to
the Main Processor.
J10
This connector is used by machines utilizing CE Push Button, Edit Lock Key Switch, 2nd Home Push
Button, and Auto Door Push Button signals. Signals are sent from the Push Button or Switch, received
over J9 and sent to the SKBIF micro-controller (U8), where the data is processed and sent out over the
RS-232 line to the Main Processor.
J11
This connector is used by machines utilizing a pallet changer. Part Ready, Pallet Rotate, and Autodoor
signals are sent by all machines. Pallet scheduling signals are sent by mills. The signals are sent to the
SKBIF micro-controller (U8), where the data is processed and sent out over the RS-232 line to the Main
Processor.
J12
This connector provides +12V DC power to the SKBIF from a power supply built into the LCD
assemblies. This connector is not used for thin pendants, or if cabling is present on J20 and J22.
J13
This connector provides power to a high voltage power supply in the LCD panel to supply backlighting
to the LCD.
J14
This connector is used to program the SKBIF micro-controller.
J15
This connector is used to program PAL chip U12.
J16
This connector receives video data from the Main Processor by way of J6. The video data exits the
SKBIF from J16 and is sent directly to the LCD panel.
J17
This connector is wired to the E-Stop button on the operator pendant front panel and to J20. The ESTOP signal enters at J17 and exits at J20, where it is sent to the I/O Board and Power Supply card.
J18
This connector supports an RS-232 RJ-11 style phone cable that sends and receives data from the
Main Processor.
J19
This connector is not used at this time. A jumper is in place across the two pins.
J20
This connector receives +12V DC to power the SKBIF, Power On, Power Off and E-Stop signals.
J22
This connector is wired to the Power On and Power Off buttons on the operator pendant front panel and
to J20. The Power On and Off signals are received by J22 and sent to J20.
SW1 This switch determines how the beeper is being driven. The switch is set to ‘BEEP’ for a front panel
that contains a buzzer. The switch is set to ‘SPKR’ for a front panel that contains a speaker.
SW2 The COLOR switch is set based upon what LCD assembly is used. SHARP LCD assemblies require
the switch to be placed to the left (toward COLOR). LG LCD assemblies require the switch to be
placed to the right (away from COLOR). The STROBE switch should always be placed to the left
(toward STROBE).
96-0284 rev H
© Haas Automation January 2010
Electrical Service
67
VIDEO & KEYBOARD PCB
W/ETHERNET
& USB DRIVE
BT1 U66
U1
U10
U2
U11
U3
U12
U4
U13
U5
U14
U36
U6
U15
U34
U7
U16
U8
U17
U66A
+
C106
C30
C113
C206
U37
RS-232
PORT 2
U35
C24
C148
C78
RS-232
PORT 1
U57
S2
C77
C76
C48
U51
D6
D5
D1
D2
D3
D4
D7
D9
RUN
PGM
VIDEO
MSG
SIO
POR
STAT
+5V
850 - to
SKBIF
J4
J5
J8
U29
To
15" LCD
Video
Monitor
U21
J10
CF2
S1
MON
C138
10"
C34
C109
C102
C39
J1
C41
C47
C44
U46
C281
C282
C45
J9
C27
J14
U80
U60
RUN
15"
J2
ADDRESS BUS
DATA BUS
C283
U74
C25
J3
J13
J6
Power
E-NET (RJ-45 Jack)
J12
U5
PC 104 CCA
J3
RP1
J13
(1)
(DOC
(BATTERY)
J10
Z1
HARD
DRIVE
B10
(ICOP CCA)
J14
RP4
U21
U18
J1
J4
RP4
ADDRESS
J7
C35
DATA
J2
U31
U24
J5
Video/Floppy CCA
Left side end view of
LCD ENET/HD OPT (32-3406/7)
U30
U25
U29
U23
PC 104
(34-3406)
U19
J11
D3
(33-0211B)
USB
KYBRD
J8
C34
U32
P1
Power
USB Cable to Pendant
68
PLUG #
P1
CABLE #
860
SIGNAL NAME
LOW VOLTAGE
J2
J4
J5
J13
J14
____
____
____
850
____
VIDEO SIGNAL
ADDRESS BUSS
DATA BUSS
SERIAL DATA
SERIAL DATA
TO 
LOCATION
POWER SUPPLY PCB
PLUG #
——
N/A
MICRO PROC.PCB
MOTIF PCB
N/A
KYBD
____
____
____
J1
____
Electrical Service
96-0284 rev H
© Haas Automation January 2010
MOCON PCB
P26 P27 P28
P13
P11
P24
P34
P10
P17 P21 P22
P18
P12
P14
P16
P20
P33
P6
P32
P7
P5
P8
P4
P9
P35
P3
U43
P30
JU2
P2
INSTALL JUMPER
FOR MOCON 2
P31
P15
P1
P19
PLUG #
P1
CABLE #
——-
SIGNAL NAME DATA BUSS
P2
P3
P4
P5
P32
P6
610
620
630
640
640B
660
X DRIVE SIGNAL
Y DRIVE SIGNAL
Z DRIVE SIGNAL
A DRIVE SIGNAL
B DRIVE SIGNAL
X ENCODER INPUT
96-0284 rev H
© Haas Automation January 2010
 TO 
Electrical Service
LOCATION
VIDEO PCB
MICRO PROC. PCB
X SERVO DRIVE AMP.
Y SERVO DRIVE AMP.
Z SERVO DRIVE AMP.
A SERVO DRIVE AMP.
B SERVO DRIVE AMP.
X ENCODER
PLUG #
————P
P
P
P
P
——-
69
PLUG #
P7
P8
P9
P30
P10
P11
P12
P13
P14
P15
P16
P17
P18
P19
CABLE #
670
680
690
690B
550
510
520
530
540
860
720
640C
750
SIGNAL NAME  TO 
Y ENCODER INPUT
Z ENCODER INPUT
A ENCODER INPUT
B ENCODER INPUT
MOTIF INPUTS/I/O OUTPUTS
I/O RELAYS 1-8
I/O
I/O RELAYS 9-16
I/O RELAYS 17-24
I/O RELAYS 25-32
LOW VOLTAGE
SP. LOAD METER
VOLTAGE MONITOR
JOG ENCODER INPUT
ADDRESS BUSS
P20
P21
P22
P24
P26
P27
P28
P31
1000
SP. ENCODER INPUT
X-AXIS TEMP SENSOR
SP. DRIVE LOAD
HOME SENSORS
Y-AXIS TEMP SENSOR
Z-AXIS TEMP SENSOR
SPARE
C ENCODER INPUT
P33
P34
P35
730B
990
690C
640C
LOCATION
Y ENCODER
Z ENCODER
A ENCODER
B ENCODER
I/O PCB
I/O PCB
I/O PCB
I/O PCB
I/O PCB
POWER SUPPLY PCB
LOAD METER
VECTOR DRIVE
JOG HANDLE
VIDEO PCB
MICRO PROC. PCB
SPINDLE ENCODER
PLUG #
————————P4
P1
P2
P51
P3
————J3
————————-
SPINDLE DRIVE
X, Y & Z LIMIT
————-
SPINDLE MOTOR
(lathe- 2nd spindle encoder)
VECTOR DRIVE
J3
VCTR DR CUR. CMD.
SPARE
PWM OUTPUT (LASER)
RS-232 PORT #1 PCB
GND
PIN 1
P1
34-4090
P2
P3
PLUG #
P1
P2
P3
70
CABLE #
850
850A
850A
 TO 
LOCATION
CABINET CONNECTION
VIDEO & KEYBOARD
PC104 OPTION
Electrical Service
PLUG #
J13
J9
96-0284 rev H
© Haas Automation January 2010
WYE-DELTA SWITCH ASSEMBLIES
Black
White
Red
TO
SPINDLE
MOTOR
To P53
I/O PCB
650A
A1
1
L1
3
L2
5
1
L3
L1
3
L2
5
L3
21
21
NC 32
NC 32
DELTA
CA7
-37
A2
A1
A2
WYE
CA7
-37
22
22
NC 31
NC 31
2
4
T1
T2
2
T3
6
T1
4
6
T2
T3
650B
To Haas
Vector Drive
M CODE RELAY BOARD
M28 M27 M26 M25
NO COM NC
12 11 10 9 8 7 6 5 4 3 2 1
M24 M23 M22 M21
NO COM NC
12 11 10 9 8 7 6 5 4 3 2 1
K1
K8
LED8
LED1
540/P6
P3
OUTPUT
U7
U6
U5
32-3085B
OUTPUT
JP4
JP3
JP2
JP1
JP8
JP7
JP6
JP5
540/P1
U2
U4
INPUT
U1
Addressing Jumpers
U9
U3
LED9
96-0284 rev H
© Haas Automation January 2010
U10
U11
P2
M CODE RELAY BOARD
12 VOLT DC
Electrical Service
71
PLUG #
P1
P2
P3
P4
P5
P6
CABLE #
540
860A
540A
M21
M22
M24
M25
M26
M27
540B
SIGNAL NAME
 TO 
MOCON INPUT
12V DC TO M-CODE PCBA
I/O PCB OUTPUT
M-FUNCTION
PROBE OPTION
spare
spare
spare
spare
M CODE OUTPUT
LOCATION
I/O PCB
PSUP
PLUG #
P62
P31
2nd MCD
P1
HYDRAULIC PCB
TB3
P4
P3
C1
K5
OFF
K2
T1
K1
K6
P5
K4
CB1
K3
TB2
NE1
P9
FU1
P2
PLUG #
P1
P2
P3
P4
P5
P6
P9
TB2
TB3
72
CABLE #
880B
90
410
350
350A
350
350A
340
70
 TO 
P1
P6
LOCATION
I/O PCB
POWER PCB
GEARBOX
I/O PCB (Hyd pump en)
AXIS BRAKE
115V SERVO BRAKE
AXIS BRAKE
HYDRAULIC MTR
MAIN TRANSFORMER (VECTOR DRIVE UNIT)
Electrical Service
PLUG #
P12
P8
P54
Servo Motor
Servo Motor
96-0284 rev H
© Haas Automation January 2010
TSC MOTOR DRIVE/HIGH PRESSURE COOLANT PCB
P4
79
P3
P1
78
Q3
MOTOR EN
R11
R9
HS2
C3
230V AC IN
LE1
TSC MTR DRV CCA
C4
R4
OVR TMP
230V AC
MTR OUTPUT
77
P2
R10
U3
Q2
R5
R8
HS1
CABLE #
33-0941E
33-1944
33-0941E
33-0987
Q1
U1
U2
R2
CB1
PLUG #
P1
P2
P3
P4
R1
R3
LINE 1:
LINE 2:
LINE 3:
OFF
HS3
R7
R6
C1
C2
LOCATION
3ph coolant pump socket
Coolant Enable
OVR TMD
230V IN
PLUG #
Pump Socket
I/O PCB P73
Pump Socket
Out transformer TB2
HAAS VECTOR DRIVE UNIT
TO I/O PCB
P58 & P12
TO MOCON
P17
C 640C
Delta-Wye
Contactors
TO I/O PCB P18
Over Voltage
Haas Vector Drive
(Horiz & Vert)
Power to
Servo Amps
DC Bus
J1
+
REGEN
RESISTOR
1 2 3 4 5 6 7 8
R + - A B C
A B C
+ - R S T G G U V W
E
-
U V W X Y Z
J3
X
Y
Z
SPINDLE
MOTOR
M
U V
S
(Horiz)
W
PCBA
HOPT-A
T
R
78 79
G
230 VAC
96-0284 rev H
© Haas Automation January 2010
Electrical Service
73
10A
5A
K4
K3
K2
R27
R26
PLUG #
P1
P3
P4
6A
CABLE #
33-1516
33-6038A
33-0191
33-6038A
P6
Q1
P5
P4
P3
P3A
FU1
P1 P2
Q3 Q4 Q5 Q6
Q2
T1
FU2
C28
C21
R25
TP2
TP1
TCL
AGND
CR7
Q7
J1
K1
QUAD APC ( 32-3078A) PCB
P6A
LOCATION
I/O PCB
Air Door
From Power Card
Pallet Chain Motor
PLUG #
P62
RENISHAW TOOL PRESETTER (LATHE)
M22
B Y
M23
LTP
R
B
Y
P22 W
B
Shield
DG
R Shield
1 SIGNAL Y
LG
BR
YEL
GREY
V
40
GN
7 SIGNAL Y
CONTROL O/P
9 START
10
11
12
13
14
POWER IN
LOW
BATT
SEE
NOTE 2
16 +24V
M52 LTP ON
M62 LTP OFF
M53 PROBE ON
M63 PROBEOFF
Note:
To test probe use M53 in MDI
Verify that the yellow lead blinks and
the green LED turns on
19 SIG. STRENGTH
20 AUDIO EXT.
W
ERROR
Dual Probe
LTP and Work Probe - Lathe
This toggles the skip bit shown on the
Diagnostics page, when the probe is deflected
BN
V
60
15
74
GN
8 SIGNAL GY
WHT
Note:
To test probe use M53 in MDI
Verify that the yellow lead blinks and
the green LED turns on
Renishaw
Box
3 START W
5 10V
OMM 2
OMI
WORK
PROBE
2 SIGNAL GY
I/O or M-Code
Relay Board
If Equipped
21 +
CONTROL
O/P
I/O
Skip
N/C C N/O
N/C C N/O
OMM 1
I/O or M-Code
Relay Board
If Equipped
22 23 +
24 -
JUMPER
17 0V
M/C START
1ms - 150 ms
Notes:
1. Set SW2 as shown
AUTO START
SEE
NOTE 2
A B C D
MC START IN 21 & 22
Power Card
P3
BUZZER OFF
A B C D
BUZZER ON
Rtrn
ERROR
2. Set SW3 as shown
1 2 3 4
18 GND/SCN
ERROR
1 2 3 4
O/P
O/P
14 & 15 23 & 24
STATUS STATUS
N/O
N/O
3. Other switch configurations
as defined in user handbook
24V
Electrical Service
96-0284 rev H
© Haas Automation January 2010
OPERATOR PENDANT
USB DRIVE
ENHANCED
REMOTE JOG HANDLE
(OPTION)
LCD
HOOK
SWITCH
BACKLIGHT
JOG HANDLE
- +
HAAS
VIDEO DATA
PENDANT SUPPORT ARM
CYCLE START
FEED HOLD
CE DOOR
(EUROPE)
P9
J16
12V DC
J8
MEMORY KEY LOCK (OPTION)
J18
P2
J10
J6
VIDEO DATA
24 PIN FLEX CABLE
J17
J20
ESTOP, ON/OFF 12V PWR
12V DC
2ND HOME
(OPTION)
J1
SKBIF
J13
RS-232 INTERFACE
BEEPER
+5VDC
0 VDC
A ENC
B ENC
P5
START/
AUX
FEED
FPANEL HOLD
J4
J22
P6
EMERGENCY
STOP
POWER
ON
POWER
OFF
J9
LIGHT
SWITCH
FRONT PANEL
KEYPAD
P3
USER'S AUX F-PANEL
TOOL CHANGER
AUTO/MAN
CW
PALLET ROTATE
CYCLE START
FEED HOLD
CCW
PART READY
EMERGENCY
STOP
TO
CONTROL CABINET
96-0284 rev H
© Haas Automation January 2010
Electrical Service
75
CIRCUIT BREAKERS
CB1
3PH, 40 AMP
240VAC
K1
3PH, 30 AMP
600VAC
T1
Solenoids
LV Power Supply
Line
PSUP-L
115V
3PHS
P19
Neutral
CB6
P10
Motor, Spindle Oil
1/20 HP 1.5A 114VAC
Door Fan
Spindle Motor Fan
I/O PCB-AB
CB2 3PH, 10 AMP
P1
Servo Fan
Motor, APC (Option)
1/8 HP 90VDC 1.40A
Motor, Tool Chgr, Shuttle
1/8 HP 90VDC 1.40A
Motor, Tool Chgr, Carousel
1/8 HP 90VDC 1.40A
P56
170VDC
Power Supply
1PH, 10 AMP
P36
GFI
CB3 1PH, 10 AMP
P83
P36A
HIL
Worklight
P43 Motor, Coolant
230V
3PHS
1/2 HP 230V 1PH 3.8A 50/60HZ
(MM - 1/8 HP)
CB5 1PH, 10 AMP
P20
P44
P45 Motor, TSC (Option)
1/2 HP 230V 1PH 7.4A 60HZ
CB4
1PH, 7 AMP
P21
P39
P38 Motor, Chip Conveyor
1/6 HP 230V 3PH .7A 60HZ
Vector Drive
Spindle Motor
10 HP, 200V, 30A, 60HZ
20 HP, 200V, 58A, 60HZ
320VDC
P.S.
230V
Amp
Servo Motor, XYZ Axes
1.1 HP, 850W, 7.6A
1.7 HP, 1300W, 13.7A
2.4 HP, 1800W, 18A
Fan,
Vector Drive
Minimill: CB2, 3, 6 = 1PH, 3A
76
Electrical Service
96-0284 rev H
© Haas Automation January 2010
HORIZONTAL MACHINE CONTROL CABINET WIRING DIAGRAM
CONTROL
CABINET
CABLE
90A
90B
740
760
770
850
1050
NAME
115VAC to LCD LVPS
115VAC to Work Light Switch
Power On/Off
Video Data
Emergency Stop
SKBIF
Door Switch Wiring
SPINDLE
HEAD
FRONT
PANEL
PALLET
CHANGER
CABLE NAME
490B
Super Speed Tool Changer
Motor Power
690B
Super Speed Tool Changer
Encoder
SUPER
SPEED
TOOL
CHANGER
CABLE NAME
490X
X-Axis Motor Power
660
X Encoder, X Home Limit Switch
X
AXIS
CABLE
490Z
680
350A
NAME
Z-Axis Motor Power
Z Encoder, Z Home Limit Switch
24VDC Servo Brake Release
Z
AXIS
CABLE
490B
690B
230
NAME
B-Axis Motor Power
B Encoder, B Home Limit Switch
5'th Axis Brake
Y
AXIS
CABLE NAME
490X
X-Axis Motor Power
660
X Encoder, Home Limit Switch
CABLE NAME
490Y
Y-Axis Motor Power
670
Y Encoder, Y-Home Limit Switch
A1/
A-AXIS
CABLE
490A
690
390
NAME
A-Axis Motor Power
A Encoder, A-Home Limit Switch
4'th Axis Brake
TOOL
CHANGER
CABLE
810
810A
820
NAME
Tool Changer Turret Motor
Tool Changer Shuttle Motor
Tool Changer Status
A2/
5TH AXIS
TSC
CABLE NAME
300
115VAC to Oiler
960
Low Lube
LUBE
PANEL
CABLE NAME
140
230VAC 3PH Power to
Chip Conveyor Motor
CHIP
CONVEYOR
CABLE NAME
940
230VAC to Coolant Pump
SPARE COOLANT
CABLE NAME
APC #2 CLR #1 & #2/APC #2
420
PAL #2 & #1 Home
APC #2 CE Door Open
450
Emergency Stop Input
770B
APC Motor
810
Transmission High/Low Gear
880B
Solenoids
FRONT PANEL/
PALLET CHANGER
SIGNAL
96-0284 rev H
© Haas Automation January 2010
CABLE NAME
Unclamp from Spindle Head to
190
I/O PCB
Coolant Spigot Motor
200
115VAC to Spindle Motor Fan/Oil
300A
Pump/Oiler
High/Low Gear Unclamp/Lock
880A
Solenoid Power
Spindle Status Switches
890
Low Air Pressure Sensor
950
MFIN/
CLG
TOOL CHANGER
REMOTE BOX/
FRONT PANEL
Electrical Service
CABLE NAME
940A
230VAC 3PH to TSC Coolant Pump
130
TSC Over Temp
CABLE NAME
100
M-FIN
730B
SP Drive Load (Coolant Level
Gauge Sensor)
CABLE NAME
APC PAL Home/MD PAL Up240
APC PAL 1 Home PAL Down
APC CE Door Open
410
APC #1 Pallet Ready 1/APC #1
710
Pallet Ready 2
Emergency Stop Input
770B
APC Pin CLR #1/APC Pin CLR #2
790
Tool Changer Motors
810A
M28
CABLE
250
310
430
460
480
NAME
APC Door Open
APC #2 Door Open
APC Pallet Clamp Left Door
APC #2 Door Closed/Door Open
APC Pallet Clamp Right Door
77
VERTICAL MACHINE CONTROL CABINET WIRING DIAGRAM
78
Electrical Service
96-0284 rev H
© Haas Automation January 2010
LATHE CONTROL CABINET WIRING DIAGRAM
96-0284 rev H
© Haas Automation January 2010
Electrical Service
79
CABLES
CABLE 71/72/73, POWER - K1
TO
POWER SUPPLY (33-0952A)
12.0 IN
5
4
3
2
1
71-73 33-0952A
OVR VLT PROTC
PSUP P25
73-L6
K1-3
72-L5
K1-2
71-L4
K1-1
CABLE 77/78/79, 230V TRANSFORMER - POWER SUPPLY (33-0078B)
48.0 IN
RED
RED
77-79 33-0078A
230V OUT
XFMR TB2
77
XFMR TB2
77-79 33-0078A
230V IN
PSUP P10
WHT
WHT
1
78
XFMR TB2
3
BLK
BLK
2.0 IN
79
XFMR TB2
2.0 IN
80
Electrical Service
96-0284 rev H
© Haas Automation January 2010
CABLE 90, 115V 3PH POWER SUPPLY - I/O PCB (33-0095A)
28.0 IN
1.5 IN
1.5 IN
90, 33-0095A
115V 3PH
I/O PCB P56
2: RED
90, 33-0095A
115V 3PH
PSUP P19
2
1
2: WHT
3: WHT
2
3
4
3: RED
1: BLK
1
1: BLK
CABLE 90, 115V 1PH POWER SUPPLY - I/O PCB (33-0195A)
96-0284 rev H
© Haas Automation January 2010
Electrical Service
81
CABLE 90A, 115V LCD LOW VOLTAGE POWER SUPPLY (33-8250)
LENGTH
2.00 IN
<LINE 1>
115V LCD LVPS
<LINE 3>
<LINE 1>
115V LCD LVPS
LCD LVPS TB1
RED
3
BLK
1
1
2.00 IN
GRN
2.00 IN
CABLE 90B, POWER
2
3: GRN
2: BLK
1: RED
TO
ASSY. #
MACHINE
LENGTH
<LINE 1>
<LINE 3>
33-8250
33-8251
33-8252
33-8253
33-8254
33-8255
33-8256
33-8257
33-8258
33-8259
33-8248
VF 0-2, VB-1
MINI MILL
ML
SL-40
VF 6-11
VF 3-5, SL-20/30
HS (ALL)
SL-40LB
TRM
VS-3
OM-1/OL-1
12.00 FT
12.00 FT
9.50 FT
21.00 FT
18.17 FT
14.50 FT
7.85 FT
23.00 FT
10.00 FT
21.50 FT
6.00 FT
90A, <ASSY#>
90C, <ASSY#>
90C, <ASSY#>
90A, <ASSY#>
90A, <ASSY#>
90A, <ASSY#>
90A, <ASSY#>
90A, <ASSY#>
90C, <ASSY#>
90A, <ASSY#>
90A, <ASSY#>
PSUP P11
PSUP P16
PSUP P16
PSUP P11
PSUP P11
PSUP P11
PSUP P11
PSUP P11
PSUP P16
BASE CARRIER
PSUP P11
LOW VOLTAGE POWER SUPPLY 5-PIN (33-0219A)
22.0 IN
5: RED
90B, 33-0219A
LVPS 115V
LVPS PCB J1
90B, 33-0219A
LVPS 115V
PSUP P2
2
1
2: BLK
1: RED
3: BLK
1
82
Electrical Service
96-0284 rev H
© Haas Automation January 2010
CABLE 90B FAN CORD - VECTOR DRIVE 2HD (33-1024A)
UPPER
FAN
90B, 33-1024
FAN CORD 2 HD
PSUP P6
FAN
2
1
LOWER
5.75 IN
29.0 IN
CABLE 90B WORK LIGHT (33-2330)
LENGTH
5.00 IN
90B, <ASSY. #>
WORK LIGHT
FR PNL LAMP SW
3:WHT 90B, <ASSY. #>
WORK LIGHT
LAMP PLUG
2
2:GRN
GRN
WHT
SW P5
115V
1
1:BLK
SW P2
115V
ASSY. #
MACHINE
33-2331A
33-2330A
33-1330A
33-1331A
33-1337
33-1338
OL-1
OM-1
SL-20/30/40
SL-40LB
GT-10
SL-30L/LB
LENGTH
7.0 FT
8.5 FT
10.4 FT
12.7 FT
20.0 FT
32.0 FT
BLK
CABLE 90C, SPINDLE PURGE AIR SOLENOID (33-3550)
2: BLK
90C, 33-3550
115 SP PRG SOL
SP PRG AIR SOL
TP/20AWG
90C, 33-3550
115 SP PRG SOL
PSUP PCB P14
3
2
1
2: BLK
1: RED
1
1: RED
4.0 FT
96-0284 rev H
© Haas Automation January 2010
Electrical Service
83
CABLE 90C, 115V TRANSFORMER POWER SUPPLY - 8’ (33-6408)
8.0 FT
90C, 33-6408
115V AC
PSUP P17
1
2
1: RED
90C, 33-6408
115V AC
TRANS P2/P4
1
3
RED
2: BLK
BLK
CABLE 90C, SPINDLE FAN - TL-15/SL-20 (33-8310C)
LENGTH
3
3: RED
1
2: BLK
2
4
84
4: BLK
LABEL A
LABEL B
90C, <ASSY #>
<LINE #2>
<LINE #3>
90C, <ASSY #>
<LINE #2>
<LINE #3>
LABEL A TEXT
ASSY#
LENGTH
33-8310C
8.00 FT
SP FAN PWR
33-8311C
10.00 FT
33-8312
33-8315
<LINE #2>
<LINE #3>
3
2
1: RED
LABEL B TEXT
<LINE #2>
<LINE #3>
SP FAN
SP FAN PWR
PSUP P14
SP FAN PWR
SP FAN
SP FAN PWR
PSUP P14
8.00 FT
HPU FAN PWR
HPU FAN
HPU FAN PWR
PSUP P16
23.00 FT
SP FAN PWR
SP FAN
SP FAN PWR
PSUP P14
Electrical Service
1
96-0284 rev H
© Haas Automation January 2010
CABLE 94/95/96, 115V 3PH
TO
POWER SUPPLY (33-0905E)
50.0 IN
2.0 IN
2.0 IN
RED
RED
BLK
WHT
94
XFMR
WHT
1
95
XFMR
BLK
94-96 33-0905E
115V 3PH OUT
XFMR TB1
4
94-96 33-0905E
115V 3PH IN
PSUP P1
GRN/YEL
96
XFMR
22.0 IN
CABLE 100, M-FIN FUNCTION
W/MCD
(33-0101)
LENGTH
10.0 INCH
2: BLK
ASSY. #
L-1
33-0100A 17.0 INCH
33-0301 17.0 INCH
33-0101 69.0 INCH
96-0284 rev H
© Haas Automation January 2010
4: RED
3: BLK
LENGTH <LINE 3>
2.25 FT
2.25 FT
6.60 FT
100, <ASSY #>
M-FIN
<LINE 3>
RED
1: RED
BLK
1
BLK <GND>
RED <SIG>
100, <ASSY #>
M-FIN
I/O PCB P10
L-1
N/O
P4-3
RED
BLK
COM
P4-2
I/O PCB TB1-M21
MCD PCB M21
MCD PCB M21
Electrical Service
85
CABLE 140A, CHIP CONVEYOR ENABLE/REVERSE (33-0149)
140A 33-0149
CHIPC ENA/REV
CHIPC PCB P4
BLK <REV>
WHT <ENA>
YEL <COM>
140A 33-0149
CHIP ENA/REV
I/O PCB P37
140A 33-0149
CHIP ENA/REV
HOPT PCB P5
<COM> YEL
<REV> BLK
<ENA> WHT
YEL <COM>
WHT <ENA>
BLK <REV>
CABLE 140A, LEFT CHIP CONVEYOR ENABLE/REVERSE (33-0164A)
1
1
RED
WHT
BLK
SHIELD
140A 33-0164A
CHIPC EN/REV
IOPCB P37/37A
RED <+12V>
WHT <EN.>
BLK <REV.>
SHIELD
140A 33-0164A
CHIPC EN/REV
CHIPC P2/3/4
CABLE 160, CHIP CONVEYOR 230V (33-0160D)
SHIELD
BLK
4
3
2
1
RED
WHT
160, 33-0160D
CHIPC 230V
IOPCB P39
160, 33-0160D
CHIPC 230V
PSUP P21
SHIELD
RED
WHT
BLK
4
3
2
1
CABLE 170, AUX/COIL 30HP CONTACTOR (33-0179A)
RED
WIRE SIDE OF
CONNECTOR RED
BLK
BLK
RED
RED
BLK
BLK
RED
86
BLK
170 <ASSY#>
AUTO/OFF
I/O PCB P42
4
2: RED
170 <ASSY#>
AUTO/OFF
PSUP P23
1: BLK
Electrical Service
3
21
96-0284 rev H
© Haas Automation January 2010
CABLE 190, TOOL RELEASE (33-0190C)
LENGTH
RED
RED
BLK
BLK
SIDE VIEW
1
190, <ASSY #>
REM UNCLAMP
I/O PCB <LINE3>
190, <ASSY #>
REM UNCLAMP
REM UNCL SW
TOP VIEW
<LOGIC RETURN>
SHIELD DRAIN
ASSY. #
MACHINE
<LINE 3>
LENGTH (IN)
LENGTH (FT)
TOLERANCE
33-0190C
33-3190C
33-4190
33-5190A
33-6190C
33-7190C
33-8190A
33-8290A
33-8291
33-9190
33-9191
VF 0-2
VB-1
ML
VR-11B
VF 6-11
VF 3-5
VS-3
GR-510/512
GR-712
HS-3/3R
OL-1
P19
P19
P19
P19
P19
P19
P19
P19
P19
P19
P49
176.00 IN
444.00 IN
60.00 IN
282.00 IN
264.00 IN
201.00 IN
372.00 IN
564.00 IN
588.00 IN
294.00 IN
126.00 IN
14.67 FT
37.00 FT
5.00 FT
23.50 FT
22.00 FT
16.75 FT
31.00 FT
47.00 FT
49.00 FT
24.50 FT
10.50 FT
±3.50 IN
±1.5% OF LENGTH
±2.00 IN
±1.5% OF LENGTH
±1.5% OF LENGTH
±3.50 IN
±1.5% OF LENGTH
±1.5% OF LENGTH
±1.5% OF LENGTH
±1.5% OF LENGTH
±3.00 IN
CABLE 190, TOOL RELEASE (33-1900)
LENGTH
RED
RED
BLK
BLK
ASSY. #
MACHINE
LENGTH
TOLERANCE
33-1900
33-1901
33-1902
33-1903
VF 5/50T
VF 6-11/50T
VS-1/3
EC-1600
13.00 FT
19.70 FT
31.00 FT
23.00 FT
±3.00 IN
±3.50 IN
±1.5% OF LENGTH
±1.5% OF LENGTH
1
190, <ASSY #>
REM UNCLAMP
I/O PCB P19
190, <ASSY #>
REM UNCLAMP
REM UNCL SW
TOP VIEW
<LOGIC RETURN>
SHIELD DRAIN
SIDE VIEW
96-0284 rev H
© Haas Automation January 2010
Electrical Service
87
190/240/260/710/770A FRONT ENCLOSURE SIGNAL RECEPTACLE (32-6660B)
SW P2
115V
95
SW P5
1
1
FRNT PNL
WORK LITE
FRNT PNL SW
190, 32-6660B
FRONT DOOR
SHIELD I/O PCB P19
RED
5
BLK
260, 32-6660B
PAL READY LITE
SHIELD I/O PCB P34
RED
A
S
R
B
D
U
a
e
Z
M
C
T
b
P
c
N
E
V
d
K
F
W
Y
X
L
J
G
H
BLK
AUX FP
PAL RDY SW
SKBIF J11
4 COND 24AWG
1
9: SHIELD
5: GRN
1: RED 1
8: BLK
4: WHT
2
A: RED <PAL DOWN>
B: WHT <PAL UP>
D: SHIELD
E: RED <PAL ALARM>
F: BLK <PAL ALRM RTN>
H: SHIELD
J: GRN <CW ROTATION>
WHT
K: WHT <CCW ROTATION>
BLK RED M: RED <PAL RDY LITE>
SHIELD
P: BLK <LS DOOR RTN>
R: RED <LS DOOR CLOSE>
T: RED <2ND E-STOP>
770A, 32-6660B
U: BLK <RETURN>
2ND E-STOP
V: BLK <GND>
I/O PCB P6 1: RED
W: WHT <PAL UP>
X: BLK <PAL RDY SW RTN>
2: BLK
Y: RED <PAL RDY SW>
Z: BLK <PAL RDY LITE RTN>
M28, 32-6660B
PALLET ALARM
I/O PCB P67
6 4
RED
3 21
STANDARD RECEPTACLE
SOCKET CONTACTS
(SIDE VIEW)
240, 32-6660B
PAL UP/DWN SW
I/O PCB P21
2 COND TP 22AWG
1
BLK
RED
BLK
2
BACK SIDE OF CONNECTOR
SHIELD
710, 32-6660B
6
4
PAL UP/DWN SOL
I/O PCB P52
BLK 3 21
RED
WHT a: RED <WORKLITE>
GRN/YEL <CHASSIS GND>
b: BLK <WORKLITE>
d: RED <PAL DWN>
e: BLK <PAL DOWN RTN>
CABLE 200, PROGRAMMABLE COOLANT (33-0202)
BLK
1
88
ORN
4
2
WHT
RED
MACHINE
LENGTH
TOLERANCE
33-0201
33-0202
33-0203
33-0204
33-0205
33-0206
33-0208
33-8200
GR510/512
VF 0-5
VF 6-11
VB-3
VR-11B
EC-300
EC-1600
VS-3
50.00 FT
13.50 FT
20.50 FT
38.00 FT
22.00 FT
15.00 FT
24.00 FT
29.00 FT
±1.5% OF LENGTH
±3.50 IN
±1.5% OF LENGTH
±1.5% OF LENGTH
±1.5% OF LENGTH
±3.50 IN
±1.5% OF LENGTH
±1.5% OF LENGTH
200 ,<ASSY.#>
SPIGOT MTR/SW
PROG COOL ASSY
Electrical Service
200, <ASSY.#>
SPIGOT MTR/SW
I/O PCB P35
1
3
ASSY. #
RED
BLK
ORN
WHT
SHIELD
96-0284 rev H
© Haas Automation January 2010
CABLE 210, FLOPPY DRIVE DTA VF0-2/VB-1 (33-0210A)
1
SHLD DRN
6.0 IN 22AWG VIDEO J11
3: BLK <DRAIN>
RED
STRIP
1
210, ASSY #
FL DR DATA
FRNT PNL FLD
<FLOPPY DRIVE END>
1
RED
STRIP
FRONT VIEW
OF SOCKET
BACK VIEW
OF SOCKET
CENTER
KEY
210, ASSY #
FL DR DATA
VIDEO PCB J12
<VIDEO PCB END>
2.0 IN
2.0 IN
LENGTH
LENGTH
ASSY. #
MACHINE
33-0210A
33-1210B
33-6210A
33-7210A
33-8210A
33-6211
12.00 FT
VF0-2, VB-1
1.50 FT
CSM (ALL)
19.00 FT
VF/R6-11
15.00 FT
VF3-5, SL (ALL)
6.00 FT
HS (ALL)
TM-1/2 OFFICE MACHINES 9.00 FT
TOLERANCE
±3.00 IN
±0.50 IN
±3.50 IN
±3.50 IN
±2.00 IN
±2.00 IN
CABLE 230, TAILSTOCK CONTROL - FORWARD (33-1988)
15.0 FT.
230 33-1988
FORWARD (TS)
SOLENIOD
230 33-1988
FORWARD (TS)
I/O PCB P31
6
3
Back view
96-0284 rev H
© Haas Automation January 2010
Electrical Service
4
2
1
1 BRN
2 BLU
3 GRN
89
CABLE 240, PALLET UP/DOWN SWITCH (33-0113)
11.50 FT
PAL UP
3
3: BLK
1
2: RED
3: WHT
4: BLK
PAL UP
PAL DWN
GND
SHLD
240, 33-0113
PAL UP/DWN SW
PAL CHNGR
240, 33-0113
PAL UP/DWN SW
I/O PCB P21
1
4
2
3" BLK
JUMPER
1: RED
PAL DWN
2: WHT
4: BLK
3
4
1
2
3 IN
CABLE 240/260/430/770A/790 AUX. FRONT PANEL SIGNAL RECEPTACLE (32-6670)
GRN
SW P2
115V
RED
BLK
95
SW P5
1
4
BLK
[LS DOOR RTN]
SHLD
32-6670
WORK LITE
FRNT PNL SW
Standard Receptacle
Socket Contacts
Side View
790, 32-6670
FRONT DOOR
I/O PCB P18
RED [LS DOOR CLOS]
RED [PAL RDY LITE]
260 32-6670
PAL READY LITE
I/O PCB P34
1
1
BLK [PAL RDY LITE RTN]
SHLD
2
BACK SIDE
OF CONNECTOR
9: SHIELD
5: GRN
1: RED
8: BLK
4: WHT
90
1
AUX FRNT PNL
PAL RDY SW
SKBIF J11
a
N
b
Z
M
L
A
S
R
P
Y
K
B
T
e
c
d
X
J
C
D
U
V
W
H
E
F
G
32-6670
LIFT PROTECT SOL
PSUP P15
RED [LIFT PROTECT SOL]
A: GRN [WORKLITE GND]
B: SHIELD
D: RED [2ND E-STOP]
E: BLK [RTN]
BLK [RTN]
1
K: GRN [CW ROTATION]
430, 32-6670
BLK [PAL UNCLMP L: WHT [CCW ROTATION]
PAL UNCLMP SOL
SOL RTN]
M: RED [PAL RDY LITE]
I/O PCB P51 SHIELD
N: BLK [PAL RDY LITE RTN]
P: BLK [LS DOOR RTN]
RED [PAL UNCLMP SOL]
R: RED [LS DOOR CLOSE]
770A 32-6670
T: BLK [LIFT PROTECT RTN]
2ND E-STOP
RED [2ND E-STOP]
I/O PCB P6
Y: BLK [PAL RDY SW RTN]
W: SHIELD
BLK [RTN]
X: SHLD
RED [+12V]
Z: RED [PAL RDY SW]
WHT [PAL UNCLMP SW]
BLK [RTN]
240, 32-6670
PAL UNCLMP SW SHIELD
a: RED [WORKLITE]
I/O PCB P21
b: BLK [WORKLITE]
d: SHIELD
G: GRN/YEL [GND]
e: RED [LIFT PROTECT SOL]
RED [AIR
BLAST SOL]
M28 32-6670
AIRBLAST SOL
I/O PCB P67
SHIELD
BLK [SOL RTN]
2
Electrical Service
96-0284 rev H
© Haas Automation January 2010
CABLE 240/260/430/770A/790 AUX. FRONT PANEL SIGNAL CABLE (32-6665A)
3: BLK [PAL UNCLMP SW]
F: BLK [PAL UNCLMP SW]
1
A: BRN [WRK LITE GND]
R: RED [FRNT DR SW]
P: WHT/RED [FRNT DR SW RTN]
B A S
R
C
T b
D U
P
e a
E V c
N
d Z
F W
Y M
X
G
L
H J K
2
2: RED [FRNT DR SW]
W: SHIELD
1: WHT/RED [FRNT DR SW RTN]
DETAIL A
b: BLK [WRK LITE RTN]
PAL UNCLMP
SW
1: WHT/BLK [PAL UNCLMP SW RTN]
3 TP #20 AWG
e: WHT/BRN [LIFT PROTECT SOL]
3: BRN [WRK LITE GND]
FRNT DR
SW
2: WHT/BRN
[LIFT PROTECT
SOL]
2: BLK [WRK LITE RTN]
1: RED [WORK LITE]
1 TP #18 AWG
B A S
R
C
T b
D U
P
e a
E V c
N
d Z
F W
M
Y
X
G
L
H J K
4
3
c: WHT/BLK [PAL UNCLMP SW RTN]
3: BRN [WRK LITE GND]
1
a: RED [WORK LITE]
2
WORK
LITE
3
3: BRN 6" JUMPER
1: RED 6" JUMPER
1
DETAIL B
2
WORK
LITE
3
2: BLK 6" JUMPER
AUX FRONT PANEL SIGNAL CABLE
2: WHT/BRN [LIFT PROTECT SOL]
8.0 IN
1
1: BRN [LIFT PROTECT SOL RTN]
U: BLU [PAL UNCLMP SOL RTN]
2: WHT [AIR BLAST SOL]
C: ORG [PAL UNCLMP SOL]
B A S
R
T b
D U
P
e a
E V c
N
d Z
F W
Y M
X
G
L
H J K
T: BRN [LIFT PROTECT SOL RTN]
N: BLK [PAL RDY LITE RTN]
C
LIFT PROTECT
SOL
7 COND #24 AWG
1: GRN [AIR BLAST SOL RTN]
1
AIR BLAST
SOL
M: RED [PAL RDY LITE]
2: ORG [PAL UNCLMP SOL]
J: GRN [AIR BLAST SOL RTN]
H: WHT [AIR BLAST SOL]
DETAIL C
X: SHIELD
1: BLU [PAL UNCLMP RTN]
1
PAL UNCLMP
SOL
10: RED [PAL RDY LITE]
5: BLK [PAL RDY LITE RTN]
9: BLU [2ND E-STOP]
E: WHT [2ND ESTOP RTN]
8: GRN [CCW ROT]
D: BLU [2ND ESTOP]
B A S
R
C
T b
D U
P
e a
E V c
N
d Z
F W
Y M
X
G
L
H J K
7: ORG [CW ROT]
7 COND #24 AWG
6: RED [PAL RDY SW]
AUX
FRNT PNL
Z: RED [PAL RDY SW]
L: GRN [CCW ROT]
Y: BLK [PAL RDY SW RTN]
Y: BRN [ROT RTN]
K: ORG [CW ROT]
1: BLK [PAL RDY SW RTN]
DETAIL D
2: BRN [ROT RTN]
4: WHT [2ND ESTOP RTN]
d: SHIELD
96-0284 rev H
© Haas Automation January 2010
Electrical Service
91
CABLE 240/260/430/770A/790 AUX. FRONT PANEL SIGNAL RECEPTACLE (32-6667B)
GRN
RED
115V
BLK
95
SW P5
STANDARD RECEPTACLE
SOCKET CONTACTS
32-6667B
SIDE VIEW
LIFT PROTECT SOL
PSUP P15 RED [LIFT PROTECT SOL]
32-6667B
WORK LITE
FRNT PNL SW
BLK [RTN]
430, 32-6667B
BLK [PAL UNCLMP SOL RTN]
PAL UNCLMP SOL
SHIELD
I/O PCB P51
BLK
[LS DOOR RTN] 790, 32-6667B
FRONT DOOR
SHLD
I/O PCB P18
4
2 1
RED [PAL UNCLMP SOL]
770A 32-6667B
2ND E-STOP
I/O PCB P6 RED [2ND E-STOP]
BLK [RTN] 1
RED [+12V ]
A
S
R
C
D
U
e
Z
M
B
T
b
a
c
E
V
d
K
F
W
Y
X
L
J
G
H
240, 32-6667B
PAL UNCLMP SW
I/O PCB P21
SHIELD
5
P
N
1
G: GRN/YEL [GND]
2
BACK SIDE OF CONNECTOR
9: SHIELD
5: GRN
1: RED 1
8: BLK
4: WHT 2
WHT [PAL UNCLMP SW ]
BLK [RTN]
1
1
1
RED [LS DOOR CLOS]
BLK
[PAL RDY LITE RTN] 260 32-6667B
PAL READY LITE
SHLD
I/O PCB P34
RED [PAL RDY LITE]
1
A: GRN [WORKLITE GND]
B: SHIELD
C: RED
D: RED [2ND E-STOP]
E: BLK [RTN]
K: GRN [CW ROTATION]
L: WHT [CCW ROTATION]
M: RED [PAL RDY LITE]
N: BLK [PAL RDY LITE RTN]
P: BLK [LS DOOR RTN]
R: RED [LS DOOR CLOSE]
T: BLK [ LIFT PROTECT RTN]
W: SHIELD
Y: BLK [PAL RDY SW RTN]
Z: RED [PAL RDY SW]
AUX FRNT PNL
PAL RDY SW
SKBIF J11
RED [AIR BLAST SOL]
6 4
32 1
M28 32-6667B
AIRBLAST SOL
BLK [SOL RTN]
SHIELD
I/O PCB P67
a: RED [WORKLITE]
b: BLK [WORKLITE]
c: BLK
d: SHIELD
e: RED [LIFT PROTECT SOL]
CABLE 250, TAILSTOCK CONTROL - REVERSE (33-1989)
250 33-1989
REVERSE (TS)
SOLENOID
15.00 FT.
250 33-1989
REVERSE (TS)
I/O PCB P32
3 GRN
4
2
Back view
92
Electrical Service
3
1
1 BRN
2 BLU
96-0284 rev H
© Haas Automation January 2010
CABLE 250 MORI T/C RECEPTACLE OUTPUTS (33-8155A)
33-8155A
115V SOLENOIDS
SMTC PCB P3
BLK (PIN 4)
PIN OUT OF CONNECTOR
1 MAG CW/Y01A
2 M22 (SPARE)
3 MAG NOTCH OUT/Y01C
4 SWING SP/Y017
5 CHANGE MAG/Y016
6 SLIDE RIGHT/Y015
CHASSIS 7 CHANGE LEFT/Y014
GROUND 8 ARM CCW/Y013
54 IN
9 MAG CCW/Y01B
10 M25 (SPARE)
BLK (PIN 6)
BLK (PIN 7)
BLK (PIN 5)
GRN/YEL
BLK (PIN 14)
4
15
8
14
16 15 14 13 12 11 10 9
8 7 6 5 4 3 2 1
BLK (PIN 8)
REAR VIEW
11 115V SW LINE (SPARE)
OF CONNECTOR 12 CHASSIS GROUND (SPARE)
13 115V COMMON
14 ARM IN/Y010
250 TOOL
15 ARM OUT/Y011
RELEASE
16 ARM CW/Y012
I/O PCB P32 REAR
VIEW
GRN
BLK (PIN 16)
20
28
BLK (PIN 9)
RED (PIN 13)
BLK (PIN 3)
BL
K
BLK (PIN 1)
N
GR
REAR
VIEW
BLK (PIN 15)
1
4
2
3
1
BLK
CABLE 260, READY LAMP - EC-300 (33-8105)
260 33-8105
READY LAMP
I/O PCB P34
260 33-8105
READY LAMP
AUX F-PNL
1
RDY
LAMP
RED
RED
BLK
DRAIN
3
RDY
LAMP
BLK
CABLE 270, TAILSTOCK CONTROL - RAPID (33-1987)
13.5 FT.
270/880A 33-1987
RAPID (TS)
TT / SOL
270/880A 33-1987
RAPID (TS)
I/O P33/HPU SOL
3
96-0284 rev H
© Haas Automation January 2010
Electrical Service
2
1
1 BRN
2 BLU
3 GRN
93
CABLE 280, HAAS BEACON (33-1035A)
RED
3
2
280, <ASSY.#>
BEACON 115V
SHLD
<LINE 3>
280, <ASSY.#>
BEACON 115V
BCON FRNT PNL
1
WHT
BLK
4 3 21
BLK
WHT
RED
ASSY. #
MACHINE
<LINE 3>
LENGTH
33-1035A
33-1036A
33-1037C
33-1039C
33-8160B
VF0-5, SL20/30
VF6-11
SL-40
VB1/3, HS-3
VS-3
IOPCB P36
IOPCB P36
IOPCB P36
IOPCB P36
BASE CAPPER
17.75 FT
21.75 FT
22.00 FT
13.50 FT
22.00 FT
TOLERANCE
±3.50 IN
±3.50 IN
±3.50 IN
±3.50 IN
±3.50 IN
CABLE 300, SPINDLE FAN/LUBE PUMP (33-1333)
300, <ASSY #>
LUB OIL PUMP
IOPCB P40
300, <ASSY #>
LUB OIL PUMP
1: RED LUBE RACK
300
LUBE
3 2 11:RED PUMP
BLK
3 2 1
RED
2: BLK
2:BLK
SHIELD
ASSY. #
MACHINE
33-1333
33-1343
33-1353
33-1363A
VF0-11
SL-10/30/40
SL-20
SL-40L
LENGTH
2.75 FT
10.50 FT
7.50 FT
13.50 FT
CABLE 300A, GEARBOX OIL PUMP - SL-30/40 (33-8168)
RED
BLK
94
300A, <ASSY #>
GBOX OIL PUMP
OIL PUMP CON
SHLD
3 21
BLK
ASSY. #
CONTROL
33-8168
33-8169
33-8175A
BOTTOM
TOP
BOTTOM
LENGTH
7.00 FT
13.00 FT
16.00 FT
Electrical Service
300A, <ASSY #>
GBOX OIL PUMP
I/O PCB P41
RED
96-0284 rev H
© Haas Automation January 2010
CABLE 310, DOOR OPEN (33-2300)
LENGTH
ASSY. #
MACHINE
32-2300
32-2301
32-2302
32-2303
32-2304
32-2305
32-2306
32-2307
32-2308
32-2309
32-2310
32-2313
32-2314
32-2316
32-2320
LATHES
MM, SMM
SL-10, ML
SL-40
SL-20, TL-15
SL-30
APC, APCQ
APC, APCQ
APCQ
APCQ
MDC-1
EC-400
TL-1/2/3
EC-400/500/400PP
EC-630
18 IN
12 IN
39 IN
54 IN
75 IN
84 IN
150 IN
150 IN
186 IN
186 IN
21 IN
21 IN
84 IN
150 IN
204 IN
2: BRN <SIG>
1: BLU <GND>
LENGTH
CABLE 350/350A, AXIS BRAKE (33-0904B)
TABLE
<LINE1>
<LINE2>
<LINE3>
RED
<LINE1>
<LINE2>
<LINE4>
3
2
BLK
<LINE 1>
<LINE 2>
350 33-0904B
AXIS BRAKE
350A 33-0906A HYD PMP EN
1AXIS BRAKE
350A 33-0908
<LINE 3>
BRAKE PCB P6
TRANS PCB P4
BRAKE PCB P6
1
1 RED
2 BLK
<LINE 4>
LENGTH
25.00"
I/O PCB P47
23.00"
I/O PCB P49
27.00"
I/O PCB P49
CABLE 350, Z-AXIS BRAKE (33-0907)
1
18.0 IN
2: RED
350 33-0907
Z-AXIS BRK
TRANS PCB P1
350 33-0907
Z-AXIS BRK
I/O PCB P47
2
1
2: BLK
1: RED
3: BLK
96-0284 rev H
© Haas Automation January 2010
3
Electrical Service
95
CABLE 350A, HYDRAULIC PUMP CONTACTOR (33-0352B)
A1 COIL
BLK
350A33-0352B
115 HYD CNTCR
CONTACTR COIL
350A33-0352B
115 HYD CNTCR
I/O PCB P49
A2 COIL
3
2
1
BLK
RED
RED
40"
CABLE 390, 115V 4TH AXIS BRAKE (33-8511)
LENGTH
4
6
3
390, <ASSY.#>
<LINE 2>
BRAKE SOLENOID
390, <ASSY.#>
<LINE 2>
I/O PCB P46
1: SHLD
2 1
2: BLK
2: RED
3: BLK
1: RED
ASSY. #
MACHINE
LENGTH
<LINE 2>
33-8511
33-8512
HS-3R
VTC
9.50 FT
11.00 FT
115V 4TH BRAKE
115V SP BRAKE
1
CABLE 410, TOOL CHANGER DOOR SWITCH (33-9825A)
3
4
1
2
410 <ASSY #>
TC DOOR LS
I/O PCB P17
410 <ASSY #>
TC DOOR LS
TC DOOR L/SWITCH
1
RED
RED
BLK
DRAIN
BLK
LENGTH
96
ASSY. #
MACHINE
LENGTH
TOLERANCE
33-9825A
33-9821A
33-9829
33-9830
33-9831
HS-1 (ALL)
HS-2/3
EC-300
GR-408
GR-510/512/
710/712
15.00 FT
5.50 FT
20.75 FT
28.00 FT
48.00 FT
±3.00 IN
±2.00 IN
±3.50 IN
±4.00 IN
±5.00 IN
Electrical Service
96-0284 rev H
© Haas Automation January 2010
CABLE 420/440/450/460/470/770B MORI T/C RECEPTACLE INPUTS (33-8150C)
TL RLS FS
GND
SHIELD
33-8150B
INPUTS
SKBIF J9
RED
BLK
RED
BLK
6
SHIELD
420
I/O PCB P23
RED MAG NOTCH PIN IN (X00E)
BLK MAN TOOL RELEASE (X00B)
RED 1ST.POT (X00C)
BLK POT COUNT (X00D)
14 BLK
15
20 RED
K D
BL RE
28
WHT
BLK
770B
I/O PCB P7
BL
450
I/O PCB P25
RED ARM ROTATE CCW (X003)
BLK ARM ROTATE CW (X002)
470
I/O PCB P27
ASSY#
33-8150C
1
25
26
K
1
RED
BLK
RED
9
YEL
DRAIN
BLK
8
BL
1
WHT
BLK
RED
3
21
460
I/O PCB P26
YEL
RED ARM IN (X000)
BLK ARM OUT (X001)
1
1
1
440
I/O PCB P24
4
CHANGE SLIDE
HALF WAY (X006)
CHANGE SLIDE
LEFT (X004)
1
BLK
RED
WHT/BLK
BRN
YEL
ORG
1
RED
ORG
YEL
BRN
WHT/BLK
MAG CCW
MAG CW
MAN
RED +12DC
BLK CNG SWG TO SPNDL (X009)
RED CNG SWG TO MAG (X008)
BLK CAGE DOOR SW
RED CNG SLIDE RIGHT (X005)
BLK LOGIC GROUND
RE
K
D
RED
3RD E-STOP
BLK
CABLE 420/430/470/810 SIDE-MOUNT TOOL CHANGER AMPHENOL CABLE ASSEMBLY (33-0822)
KEY
810, 33-0822
TC MOTORS
I/O PCB P59
8
5
43 2 1
B
N
T
K
J
S
H
G
P
C
E
R
D
470, 33-0822
CAM BOX INPUT
I/O PCB P27
F
420, 33-0822
CAROUSL INPUT
I/O PCB P23
BRN (PKT DOWN)
RED (PKT UP)
ORG (TOOL ONE)
YEL (TC MARK)
1 234 56
A
M
L
1
A: RED
B: BLK
C: YEL
D: BRN
E: YEL
F: ORN
G: BRN
H: RED
J: ORG
L: BLK
P: GRN/YEL
M: RED #2
N: BLK #2
R: RED #1
S: BLK #1
T: RED
3: RED #1 (CAROUSEL MOTOR)
4: BLK #1 (CAROUSEL MOTOR)
6: SHIELD
7: BLK #2 (ATC MOTOR)
8: RED #2 (ATC MOTOR)
1 RED (+12VDC)
2 BRN (ATC MOTOR STOP)
3 ORN (ATC ORIGIN)
4 YEL (ATC TOOL CLAMP)
5 BLK (+12V RTN)
6 SHIELD
SHIELD
430, 33-0822
PKT U/D SOLEN
I/O PCB P51
2 1
1: RED (PKT U/D SOL)
2: BLK (PKT U/D SOL COMM.)
96-0284 rev H
© Haas Automation January 2010
Electrical Service
97
CABLE 510, I/O PCB
TO
MOCON - NO SHIELD (33-0515A)
LABEL A
LENGTH
See Table
LABEL B
<(LINE 1>
RELAY CABLE
<(LINE 3>
<(LINE 1>
<(LINE 2>
<(LINE 3>
16COND/28AWG
PIN 1
PIN 1
ASSY. #
LABEL A & B
<LINE 1>
LABEL B
<LINE 2>
LABEL A
<LINE 3>
LABEL B
<LINE 3>
LENGTH
33-0515
33-0525
33-0535
33-0545
510, 33-0515A
520, 33-0525A
530, 33-0535A
540, 33-0545A
RELAY CABLE
RELAY CABLE
RELAY CABLE
PRE I/O-S P3
MOCON P11
MOCON P12
MOCON P13
MOCON P14
I/O PCB P65
I/O PCB P64
I/O PCB P70
I/O PCB P61
46.0 IN
46.0 IN
46.0 IN
38.0 IN
CABLE 510
PIN 1/2
PIN 3/4
PIN 5/6
PIN 7/8
PIN 9/10
PIN 11/12
PIN 13/14
PIN 15/16
98
RED EDGE
RED EDGE
SERVO POWER ON/RTN
PALLET UP/RTN
SPARE A/RTN
SPARE B/RTN
4TH AXIS BRAKE/RTN
COOLANT ON/RTN
AUTO POWER OFF/RTN
SPINDLE COOLING (VF-0)
SPINDLE LUBE
SPINDLE FAN
GEAR BOX OIL PUMP
WAY LUBE PUMP/RTN
CABLE 520
PIN 1/2
PIN 3/4
PIN 5/6
PIN 7/8
PIN 9/10
PIN 11/12
PIN 13/14
PIN 15/16
TOOL SHUTTLE IN/RTN
TOOL SHUTTLE OUT/RTN
TOOL TURRET CW/RTN
TOOL TURRET CCW/RTN
HIGH GEAR SHIFT/RTN
LOW GEAR SHIFT/RTN
TOOL UNCLAMP/RTN
SPINDLE LOCK/RTN
CABLE 530
PIN 1/2
PIN 3/4
PIN 5/6
PIN 7/8
PIN 9/10
PIN 11/12
PIN 13/14
PIN 15/16
SPIGOT FORWARD/RTN
SPIGOT REVERSE/RTN
SPARE A/RTN
SPARE B/RTN
PRECHARGE/RTN
SPARE C (HTC SHUTTLE)/RTN
5TH AXIS BRAKE/RTN
DOOR LOCK (EUROPE)/RTN
Electrical Service
96-0284 rev H
© Haas Automation January 2010
CABLE 540/540A/850 I/O PCB
TO
MCD CONTROLS (33-1515G)
FACE UP
PIN 1
FACE DOWN
RED STRIPE
<LINE 1A>
<LINE 2>
<LINE 3A>
<LINE 1B>
<LINE 2>
<LINE 3B>
PIN 1
LENGTH
<LINE 1A>
<LINE 1B>
540 33-1515A
540A 33-1516A
850 33-0854A
540 33-1517A
540A 33-1515A
540A 33-1516A
850 33-0854A
540A 33-1517A
96-0284 rev H
© Haas Automation January 2010
<LINE 2>
MCD CONTROLS
SMTC DRIVER
CSM SERIAL KBD
MCD CONTROLS
<LINE 3A>
MCD PCB P1
SMTC DRVR P1
SKBIF P1
MCD PCB P1
Electrical Service
<LINE 3B>
LENGTH
I/O PCB P62
I/O PCB P62
PROCESSOR J4
I/O PCB P17
2.00 FT
1.75 FT
2.50 FT
3.20 FT
99
CABLE 550, INPUT I/O
PIN 1
TO
MOCON - NO SHIELD (33-0552)
550, ASSY #
INPUTS CABLE
LINE <3> I/O PCB P63
550, ASSY #
INPUTS CABLE
MOCON PCB P10
PIN 1
46.0"
INPUT #
00
01
02
03
04
05
06
07
08
09
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
100
SIGNAL
SHUTTLE IN (SMTC PKT DOWN)
SHUTTLE OUT (SMTC PKT UP)
TOOL #1 MARKER (SMTC TOOL #1)
LOW TSC COOLANT
(LASER LOW ASSIST GAS PRESSURE)
GENEVA MARK (SMTC TC MARK)
IN HIGH GEAR
IN LOW GEAR
EMERGENCY STOP
DOOR OPEN
M CODE FINISH (GR PLASMA CONFIRM)
LOW VOLTAGE
LOW AIR PRESSURE
(LASER LOW PURGE AIR PRESSURE)
LOW WAY LUBE OIL
OVERHEAT SERVO REGEN
DRAW BAR OPEN
DRAW BAR CLOSED
SPARE (3RD DB POS SW)
SPINDLE DRIVE FAULT
SPINDLE STOPPED
SPINDLE AT SPEED
LOW GEARBOX/SPINDLE OIL
(VB LOW CHILL PRESSURE)
SPARE 1
(VB CLAMSHELL DOOR OPEN)
SPARE 2A
(APC PIN CLR MD OPEN)
SPARE 2B
REMOTE TOOL UNCLAMP
LO PHASE
INPUT #
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
Electrical Service
SIGNAL
SPARE 3A
(APC PAL #2 HOME, OLD MD PAL UP,
NEW MD PAL UNCLAMP)
SPARE 3B
(APC PAL #1 HOME, OLD MD PAL DOWN,
EC-1600 CLAMP)
GROUND FAULT
SKIP
SPIGOT
CHIP CONVEYOR OVERCURRENT
SENSE CIRUIT
SPARE 4A (APC #2 PIN CLR #1)
SPARE 4B (APC #2 PIN CLR #2)
SPARE 4C (APC #2 PAL #2 HOME)
SPARE 4D (APC #2 PAL #1 HOME)
SPARE 6A (AUTODOOR)
SPARE 6B
SPARE 7A (APC #2 CE DOOR OPEN)
SPARE 7B
SPARE 8A (APC #2 DOOR CLOSED)
SPARE 8B (APC #2 DOOR OPEN)
SPARE 9A (SMTC MTR STP)
SPARE 9B (SMTC ORIGIN)
SPARE 9C (SMTC CL/UNCL)
SPARE 9D (SMTC CL/UNCL)
SPARE 10A (APC DOOR CLOSED)
SPARE 10B (APC DOOR OPEN)
SPARE 10C (APC PAL CLAMPED)
SPARE 10D (APC PAL IN POSITION)
96-0284 rev H
© Haas Automation January 2010
CABLE 610 (620, 630), AXIS CURRENT COMMAND (33-0610E)
AMP END
MOCON END
WHT/BLU <FAULT>
WHT/BLK <ENABLE>
WHT/RED <+B>
WHT/GRN <+A>
1
1
SHIELD <ANALOG GND>
BLU <LOGIC GND>
BLK <LOGIC GND>
RED <ANALOG GND>
GRN <ANALOG GND>
33-0610E
MOCON-AMP
BLU
BLK
RED
GRN
WHT/BLU
WHT/BLK
WHT/RED
WHT/GRN
2
2
2
2
1
1
CABLE 640C, VECTOR DRIVE CURRENT COMMAND (33-4048B)
WHT/BRN <A>
WHT/ORG <B>
WHT/BLK <ENBL>
WHT/YEL <FLT P>
WHT/RED <320VA>
BRN <A>
ORG <B>
BLK <DG GND>
YEL <FLT>
RED <A GND>
1
1
2
1
2
2
1
2
640C, <ASSY. #>
C-AXIS VD CUR
<LINE 3A>
640C, <ASSY. #>
C-AXIS VD CUR
<LINE 3B>
WHT/BRN <A>
WHT/ORG <B>
WHT/BLK <ENBL>
WHT/YEL <FLT P>
BRN <A>
ORG <B>
BLK <DG GND>
YEL <FLT>
DRAIN
MOCON
PCB P17
RED <A GND>
96-0284 rev H
© Haas Automation January 2010
Electrical Service
1
WHT/RED <320VA>
101
CABLE 700A, FEED HOLD/CYCLE START (33-0700A)
15.0 IN
13.0 IN
BLK
TP/22AWG
FEED HOLD
N/O SW 3
YEL
2.5 IN
FEED HOLD
N/O SW 4
1
BLK
CYCL STRT
N/O SW 4
RED
TP/22AWG
BLK
YEL
BLK
RED
700A, 33-0700A
C STRT/F HLD
SKBIF P3
CYCL STRT
N/O SW 3
2.5 IN
CABLE 710, FORWARD/REVERSE RELAY - OM-1 (33-8154)
2
REV
I/O PCB P52
1
6
3
FWD
I/O PCB P51
WHT
ORG
4
710 33-8154
FWD/REV
I/O PCB P51/P52
710 33-8154
FWD/REV
NSK 120V RLY
2 1
RED
NSK RLY
RED K3-1
NSK RLY
BLK K3-5
NSK RLY
ORG K2-5
NSK RLY
WHT K2-1
BLK
SHLD
102
Electrical Service
96-0284 rev H
© Haas Automation January 2010
CABLE 720, SPINDLE LOAD METER (33-0733)
LENGTH-A
720, <ASSY#>
SP LOAD METER
MOCON P16
RED
BLK
BLK
RED
1
RED
721 METER "+"
1
RED
BLK
720, <ASSY#>
SP LOAD METER
SKBIF P4
BLK
721 METER "-"
2.0 IN
720, <ASSY#>
SP LOAD METER
LOAD METER +/28.0 IN
ASSY. #
MACHINE
LENGTH-A
TOTAL LENGTH
33-0733
33-4733
33-2733
33-5733
33-6733
33-6737
33-7733
33-8733A
VF 0-2, VB-1
VF 3-5
TM-1/2
ML
VF 6-11, SL-40
SL-40LB
SL-20/30
HS (ALL)
12.00 FT
15.00 FT
8.50 FT
8.00 FT
19.00 FT
22.50 FT
14.00 FT
6.00 FT
14.33 FT
17.33 FT
10.83 FT
10.33 FT
21.33 FT
24.85 FT
16.33 FT
8.33 FT
CABLE 720/730B, SPINDLE DRIVE LOAD (19-24016)
12.0 FT
55.0 IN
731
"21"
730B 19-24016
SPNDL LOAD
MOCON PCB P22
BLK
RED
720, 19-24016
SP LOAD METER
SKBIF P4
1
732
"22"
RED
730B 19-24016
SPNDL LOAD
YASKWA SP DR
.100/4
6.0 IN
721
METER "+"
722
METER "-"
RED
BLK
BLK
RED
RED
1
BLK
.100/4
BLK
6.0 IN
720, 19-24016
SP LOAD METER
LOAD METER +/28.0 IN
96-0284 rev H
© Haas Automation January 2010
Electrical Service
103
CABLE 740, ON/OFF F P (33-2741C)
743
P-OFF
744
P-OFF
741
P-ON
742
P-ON
RED
6.0 IN
ASSY. #
MACHINE
33-2741C
33-4740C
33-5740C
33-6740C
TM-1/2
VF3-5
SL-40
VF6-11
LENGTH
10.00 FT
15.50 FT
22.50 FT
19.50 FT
BLK
TOLERANCE
±2.00 IN
±3.00 IN
±3.50 IN
±3.50 IN
GRN
WHT
BLK
RED
Shield Drain
WHT
740, <ASSY#>
ON/OFF SW
FRONT PNL SW
BLK
4.0 IN
740, <ASSY#>
ON/OFF SW
PSUP P22
LENGTH
CABLE 750, REMOTE JOG HANDLE DATA - 11 FT (33-0750C)
2
2.0"
2.0"
WHT/YEL
RED
BLK
YEL
750, <ASSY. #>
JOG DATA
RJOG/SKBIF J3
WHT/ORN
WHT/BLU
1
24AWG/6TP
WHT/RED
WHT/BRN
WHT/BLK
BRN
ORN
BLU
SHIELD
750, <ASSY. #>
JOG DATA
MOCON PCB P18
WHT/ORN
WHT/BLU
RED
JUMPER
WHT/RED
WHT/BRN
WHT JUMPER
1
WHT/YEL
RED
BLK
YEL
2
1
2
2
<LOGIC GND>
<JB>
<JC>
<JOVRHT>
<JB*>
<JHA>
<JHC>
<LOGIC GND>
1
WHT/BLK
BRN
ORN
BLU
SHIELD
<JA>
<JS5V>
<HOME>
<JA*>
<JC*>
<JHB>
<JHD>
<LOGIC GND>
LENGTH
ASSY. #
MACHINE
LENGTH
TOLERANCE
33-0750C
33-4750
33-5750C
TM-1/2, EC-300/400/1600, MDC-500, ML
HS-1/2, MDC-1
VF3-5, VF3/4SS, SL10/20/30, TL1/2/3/15/25
VF6-11, VR8/9/11B
SL-40
SL-40LB
VF 0-2, MM, GRs, VF-2SS, HS-3, VB-1/3
11.00 FT
8.00 FT
18.00 FT
3.0 IN
2.0 IN
3.5 IN
22.50 FT
24.50 FT
13.50 FT
1.5% of Length
1.5% of Length
3.0 IN
33-5757
33-6750B
33-7750C
104
Electrical Service
96-0284 rev H
© Haas Automation January 2010
CABLE 750C, JOG HANDLE ASSEMBLY (33-0750D)
JOG HANDLE
24.0 IN
BLK
RJH-3
A ENC
YEL
TP/22AWG
BLK <B ENC>
YEL <A ENC>
BLK <0 VDC>
RED <+5 VDC>
BLK
RJH-2
0 VDC
TP/22AWG
750C, 33-0750D
JOG INT J1
JOG HNDL
RED
RJH-1
+5 VDC
1
RJH-5
B ENC
SERIAL KB INT/
REMOTE JOG PCB
2.0 IN
CABLE 770, EMERGENCY STOP INPUT (33-0770)
LENGTH
771
E-STOP
RED
770, <ASSY#>
E-STOP
IOPCB P5
770, <ASSY#>
E-STOP
FRONT PANEL
.100/3
1
RED
BLK
SHIELD
772
E-STOP
BLK
2.5 IN
ASSY. #
MACHINE
33-0770
33-2770
33-4770
33-5770
33-6770
33-7770
33-8770
33-8772
VF0-2, VB-1
TM-1/2
VF3-5
SL-40
VF6-11
SL-20/30
HS-1/2, MDC-1, EC-300/400
VS-3
LENGTH
13.20 FT
8.50 FT
17.00 FT
22.00 FT
19.00 FT
16.00 FT
8.0 FT
35.50 FT
TOLERANCE
±3.00 IN
±2.00 IN
±3.00 IN
±3.50 IN
±3.50 IN
±3.00 IN
±2.00 IN
±1.5% of Length
CABLE 770, MOCON 2 AUXILIARY E-STOP (33-0773)
1
1
BLK
RED
RED
770, 33-0773
MOCON 2 ESTOP
I/O P7/P72/P81
770, 33-0773
MOCON 2 ESTOP
MOCON P34
96-0284 rev H
© Haas Automation January 2010
Electrical Service
BLK
SHIELD
105
CABLE 780, SPINDLE OVERVOLTAGE (33-4047)
BLACK
BLACK
1
RED
1
RED
780, 33-4047
SP VD OVRVLT
SP VDR J1
780, 33-4047
SP VD OVRVLT
I/O PCB P16
SHIELD
CABLE 790, TOOL PRESETTER HOME SWITCH “I/O S” SL-20/30 (33-0557A)
LENGTH
4: RED
3
790 <ASSY>
LTP HOME
I/O PCB P18
790 <ASSY>
LTP HOME
HOME SWITCH
RED
4
BLK
1
DRAIN
2
2: BLK
ASSY. #
MACHINE
LENGTH
TOLERANCE
33-0557A
33-0757
SL-20/30
SL-40
8.00 FT
11.50 FT
±3.00 IN
±3.50 IN
CABLE 820, TOOL TURRET STATUS - 17 FT (32-0823)
8.00 IN
4.00 IN
106
ASSY. #
32-0821
32-0822
32-0823
Electrical Service
MACHINE
SL-10
SL-20
SL-30
BLK
BRN
BLU
SHIELD
LENGTH
14.50 FT
15.20 FT
17.00 FT
UNCLAMPED
CLAMPED
GND
SHIELD
4
TURRET
UNCLAMPED
820 <ASSY#>
TT STATUS SWS
I/O PCB P2
1
TURRET
CLAMPED
LENGTH
96-0284 rev H
© Haas Automation January 2010
CABLE 820, 8-STATION TOOL TURRET STATUS (33-4820A)
9.0 FT
1
RED
WHT
TC MARK
TC HOME
I/O PCB
P28
820 33-4820A
LUBE RACK
T/S ENCODER
8: RED TOOL MK
7: BLK TOOL MK
6
BLK
1
UNLOCKED
WHT
5
2: SHIELD 1
I/O PCB
P2
3: BLK GND
BLK
GND
SHIELD
10
2: SHIELD
8
GND
SHIELD
10: WHT TOOL 1
5: WHT UNLOCKED
4
7.8 FT
CABLE 820, C-AXIS ENABLE/DISABLE SL-20/30 (33-6820A)
LENGTH
3: RED
DIS.
ENG.
1:
BLK
3
4
1
2
1: BLK
820, <ASSY.#>
EN/DISEN
I/O PCB P3
4" BLK
JUMPER
RED
WHT
BLK
3: WHT
1:
BLK
ENG.
4
3
1
2
96-0284 rev H
© Haas Automation January 2010
1
820, <ASSY.#>
C AXIS
EN/DISEN
SHLD
ASSY. #
MACHINE
LENGTH
TOLERANCE
33-6820A
33-6821A
33-6822
33-6823
SL-20/30
SL-40
VTC
SL-30
10.50 FT
14.50 FT
25.00 FT
12.50 FT
±3.5 IN
±3.5 IN
±4.0 IN
±3.5 IN
Electrical Service
<DISEN>
<ENGAGE>
<COMM>
<DRAIN>
107
CABLE 850, SKBIF (33-0700B)
FACE UP
850, <ASSY. #>
SKBIF RS232
<LINE 3>
RED STRIPE
PIN 1
FACE DOWN
850, <ASSY. #>
SKBIF RS232
PROCESSOR J4
RED STRIPE
LENGTH
PIN 1
ASSY. #
MACHINE
LENGTH
<LINE 3>
33-0700B
33-6700A
33-6702
33-6705
33-7700A
33-8700B
VF0-2, SL-20/30, VB-1
VF6-11, VF5-11/50T
VS-3
TL-4
VF3-5, SL-40
EC-300/MDC-500/EC-400/EC-1600
12.00 FT
19.00 FT
13.50 FT
20.00 FT
15.00 FT
8.50 FT
SKBIF P1
SKBIF P1
BASE CARRIER
SKBIF P1
SKBIF P1
SKBIF P1
CABLE 850/850A RS-232 16-PIN RIBBON CABLE (33-0850)
FACE UP
<LINE 1>
<LINE 2>
<LINE 3>
<LINE 1>
<LINE 2>
<LINE 3>
1
26.5 IN
<LINE 1>
<LINE 2>
RS232 P10
850, 33-0850
850A, 33-0855 RS232 P11
108
RED STRIPE
FACE DOWN
1
<LINE 3>
VIDEO J13
PROC. J5
Electrical Service
96-0284 rev H
© Haas Automation January 2010
CABLE 860, +5V/+12V/-12V/GND
TO
MOCON 1 (33-0865)
1
17.0 IN
1
RED <+5V>
BLK <GND>
BLK <GND>
YEL <+12V>
WHT <-12V>
<LINE 1>
<LINE 2>
MOCON PCB P15
ASSY #
LINE 1
LINE 2
LINE 3
<LINE 1>
<LINE 2>
<LINE 3>
33-0865 860, 33-0865 MOCON-1 PWR PSUP P32
33-0866 860, 33-0866 MOCON-2 PWR PSUP P33
CABLE 860, 12V DC - MCD RELAY PCB (33-8110)
860 33-8110
SMTC PCB P2/
MCD PCB P2
860 33-8110
PSUP P34/
PSUP P35
RED
BLK
<12V RTN>
RED
<+12V DC>
BLK
1
72 IN
4: BLK
4
3
2
1
TO
I/O PCB (33-0861B)
860A, 33-0861B
+5/+12/GND
I/O PCB P60
860A, 33-0861B
+5/+12/GND
PSUP P27
1
CABLE 860A, +5V/+12V/GND
RED <+5V>
BLK <GND>
WHT <+12V>
1: RED
2: WHT
41.0"
96-0284 rev H
© Haas Automation January 2010
Electrical Service
109
CABLE 860A, +5V/+12V/GND
TO
I/O PCB (33-0982)
35.0 IN
860A, 33-0982
+12/GND
BL320VPS P3
860A, 33-0982
+5/+12/GND
I/O PCB P60
YEL
#20 TP YEL/BLK
BLK
860A, 33-0982
+5/+12/GND
PSUP P27
3: BLK
3
4
1
3: BLK
#20 TP YEL/BLK
2
YEL
1: RED
1
#18 TP RED/BLK
2: YEL
<+12V>
BLK
<GND>
BLK
<GND>
RED
2: YEL
<+5V>
1
4: BLK
44.0 IN
CABLE 880A, SPINDLE HEAD SOLENOID (33-0881)
BLU
ORN
BLK
6
8
4
5
4 3 2 1
3 21
RED
BRN
WHT
880A, <ASSY.#>
SP HD SOLEN
SPIN HEAD
1
CABLE 880B, 120V AC
RED <LOW GEAR>
WHT <HIGH GEAR>
BLACK <COMMON>
SHIELD
TO
880A, <ASSY.#>
SP HD SOLEN
I/O PCB P55
1:BLK <TOOL UNCLAMP>
2:WHT <LOW GEAR>
3:BRN <HIGH GEAR>
4:RED <COMMON>
5:BLUE <SPIN LOCK>
7:SHIELD <DRAIN>
8:ORN <PRE CHARGE>
GEAR RELAY (33-0370D)
880B, 33-0370D
115 H/L GEAR
TRANS P1
880B, 33-0370D
115 H/L GEAR
I/O PCB P54
RED <LOW GEAR>
BLACK <COM.>
WHT <HI GEAR>
6
4
3 21
SHIELD
110
Electrical Service
96-0284 rev H
© Haas Automation January 2010
CABLE 880C, DELTA/WYE RELAY - 115V (33-0882A)
SHLD
880C, <ASSY. #>
I/O PCB P53
RED
RELAY
COIL
BLK
RELAY
COIL
3 2 1
BLK
RED
CABLE 880D EXTERNAL DELTA/WYE RELAY - 115V (33-0886C)
4: SHIELD
3
4
1
2
880D <ASSY#>
DLTA/WYE SW
D/Y SW ASSY
3: WHT
2: RED
1: BLK
880D <ASSY#>
DLTA/WYE SW
IOPCB P53A
ASSY NO.
LENGTH
TOLERANCE
33-0884C
8.0 FT.
±3.0 IN.
33-0886A
13.0 FT.
±3.5 IN.
33-0997
17.0 FT.
±3.5 IN.
33-0998
45.0 FT.
±5.0 IN
4: SHIELD
3: WHT
2: RED
2
1
1: BLK
CABLE 890, SPINDLE STATUS (33-0890)
REAR VIEW
SIDE VIEW ORN
GRN
6
5
4
3
2
1
BLU
96-0284 rev H
© Haas Automation January 2010
RED
WHT
BRN
890
<ASSY#>
SPNDL STATUS
ASSY. #
MACHINE
33-0890
33-3890
33-7890
33-8890
33-8895
VF0/1/2
VB-1
VF3/4
VF6/8, HS-1
HS-2/3
890
SPNDL STATUS
I/O PCB P15
LENGTH
10.90 FT
42.00 FT
13.00 FT
19.00 FT
22.00 FT
Electrical Service
REAR VIEW
WHT
HI GEAR
RED
LO GEAR
BLU
UNCLAMPED
BRN
CLAMPED
ORN
SP LOCKED
GRN
GROUND
DRAIN
111
CABLE 890, SPINDLE STATUS SWITCH (33-0891)
6: ORANGE
6
4
3 2
1
4: RED
1: YEL
890, <ASSY.#>
SPNDL STATUS
I/O PCB P15
1
890, <ASSY.#>
SPNDL STATUS
SPIN. HEAD
5: GREEN
<+12V>
YEL <HI GEAR>
RED <LO GEAR>
BLK <UNCLAMPED>
BRN <CLAMPED>
ORN <SP LOCKED>
GRN <GROUND>
SHIELD <DRAIN>
2: BROWN
3: BLK
CABLE 900, THROUGH
THE
ASSY. #
MACHINE
33-0891
33-3891
33-6891
33-7891
33-7892A
33-7893
33-8891
33-8892
33-8893
33-7894
VF0-2
VB-1/3
HS-2/3
VF3-5
GR-510/512/710
GR-712
VF6-11, HS-1
VR-11B
VS-3
GR-408
LENGTH
10.90 FT
38.50 FT
22.00 FT
13.00 FT
46.00 FT
48.00 FT
19.00 FT
20.50 FT
28.50 FT
31.00 FT
TOLERANCE
±3.50 IN
±1.5% of Length
±1.5% of Length
±3.50 IN
±1.5% of Length
±1.5% of Length
±3.50 IN
±1.5% of Length
±1.5% of Length
±1.5% of Length
SPINDLE COOLANT PRESSURE SENSOR - 11.5 FT (33-0900C)
1
SHIELD DRAIN
BLK
RED
900, <ASSY. #>
TSC PRES SENS
I/O PCB P4
900, <ASSY.#>
TSC PRES SENS
TSC PRES CON.
ASSY. #
MACHINE
33-0900C
33-6904A
33-8904
33-8964
33-6907
33-6912
VF0-3
VF6, HS (ALL), VR11B
VS-3
MDC-1
EC-300
VB-3/X
LENGTH
11.50 FT
21.50 FT
29.50 FT
19.50 FT
14.00 FT
50.00 FT
RED
BLK
2 1
TOLERANCE
±3.50 IN
±1.5% of Length
±1.5% of Length
±1.5% of Length
±3.50 IN
±1.5% of Length
CABLE 900, TSC LOW PRESSURE SWITCH (33-6908B)
BLK
3
1
SHIELD DRAIN
BLK
RED
112
900, 33-6908B
TSC PRES SW
I/O PCB P4
900, 33-6908B
TSC PRES SW
TSC PRES CON.
Electrical Service
1
RED
4
2
96-0284 rev H
© Haas Automation January 2010
CABLE 930, 230V I/O COOLANT - TSC (33-0930F)
BRN <TSC>
BRN <TSC>
ORN <TSC>
ORN <TSC>
GRA <TSC>
8
5
RED <COOL>
RED <COOL>
4 3 21
8
5
GRA <TSC> 4 3 2 1
BLK <COOL>
930, 33-0930F
COOL/TSC 230
PSUP P20
WHT <COOL>
930, 33-0930F
COOL/TSC 230
IOPCB P44
BLK <COOL>
WHT <COOL>
CABLE 940, COOLANT PUMP RECEPTACLE (32-0942B)
FRONT VIEW
REAR VIEW
940 32-0942B
CLNT PUMP 230V
I/O PCB P43
RED
BL
K
GR
N/Y
EL
REAR VIEW
4 3 2 1
RED
BLK
CABLE 940, COOLANT PUMP RECEPTACLE - OM (32-0949)
FRONT VIEW
REAR VIEW
Green Screw
REAR VIEW
940 32-0949
CLNT PUMP 230V
I/O PCB P43
4 3 2 1
RED
BLK
RED
BL
K
96-0284 rev H
© Haas Automation January 2010
Electrical Service
113
CABLE 940A, HYDRAULIC PUMP POWER (33-0340E)
TO HYD PUMP
BLK
940A, ASSY #
HYD PUMP PWR
I/O PCB P45
1-BLK
2-WHT
3-RED
4-GRN
940A, ASSY #
HYD PUMP PWR
TO HYD PUMP
RED
4 3 2 1
ASSY. #
MACHINE
33-0340E
33-0341A
SL-20/30/40
SL-10
WHT
LENGTH
9.5 FT
16.00 FT
GRN
DRAIN
CABLE 940A, TSC 1000 EXT. 23 FT (32-5126A)
WHT
BLK
GRN
F
A
G
E
940A, <ASSY. #>
TSC CNTCR EXT
I/O PCB P45
B
D
C
ASSY. #
MACHINE
32-5126A
32-5129A
EC-400
EC-300
LENGTH
23.00 FT
17.00 FT
GRN
4 3 2 1
BLK
RED
TOLERANCE
±4.00 IN
±3.50 IN
CABLE 950, LOW AIR/OIL - 13 FT (33-9506)
WHT
3
1
3
950, <ASSY #>
LOW AIR/OIL
PRESS SW
4
RED
SHIELD
BLK
1
BLK
RED
WHT
BLK
TRIO/22AWG
2
2
1
BLK
LOW OIL
4
LOW AIR
LOW OIL PRS.
COMM. RTN
DRAIN
950, <ASSY #>
LOW AIR/OIL
I/O PCB P12
LOW AIR
3.0 IN
LENGTH
114
ASSY. #
MACHINE
LENGTH
33-9506
33-9509
33-9512
33-9514
33-9515
33-9250
VF3-5
VS-1/3
VF-1/2
VR-11, HS3-7
EC-1600, VF6-11
VB-3/X
13.00 FT
32.00 FT
10.50 FT
22.75 FT
20.50 FT
50.00 FT
TOLERANCE
Electrical Service
±3.00 IN
1.5% of Length
±3.00 IN
±3.50 IN
±3.50 IN
1.5% of Length
96-0284 rev H
© Haas Automation January 2010
CABLE 960, LOW LUBE (33-1334)
1: BLK
960,<ASSY #>
LOW LUBE
I/O PCB P13
RED
BLK
1
2: RED
960,<ASSY #>
LOW LUBE
LOW PRES SW
LENGTH
ASSY. #
MACHINE
33-1334
33-1344
33-1354
33-1364A
EC-400, VF0-11, VS1-3, Z-1/3/4
SL-10/20
SL-30/40
SL-40L
5.6 FT
11.00 FT
14.00 FT
17.00 FT
CABLE 960, LOW LUBE SPINDLE PUMP (33-1960)
2: RED
960, 33-1960
LOW LUBE
I/O PCB P13
1
960, 33-1960
LOW LUBE
SP LUBE PUMP
RED
BLK
SHIELD
1: BLK
CABLE 960, LOW LUBE SPINDLE PUMP (33-1961)
2: RED
960, 33-1961
LOW LUBE
I/O PCB P13
960, 33-1961
LOW LUBE
SP LUBE PUMP
RED
BLK
SHIELD
1: BLK
CABLE 970, VECTOR DRIVE OVERVOLTAGE (33-4049A)
1
RED
970, <ASSY. #>
<LINE 2>
<LINE 3>
970, <ASSY. #>
<LINE 2>
I/O PCB P11
SHIELD
1
RED
BLACK
BLACK
CABLE 970, POWER SUPPLY FAULT - MINIMILL (33-4149A)
RED
BLK
BACK VIEW
RED
33-4149A
PS FAULT
PS J6
96-0284 rev H
© Haas Automation January 2010
33-4149A
PS FAULT
I/O PCB P11
Electrical Service
SHIELD
1
PIN 1
2
3
BLACK
115
CABLE 1040, TRIPLE INTERLOCK SOLENOID POWER HCE 500 (33-1065)
4: RED
4
3
1
2
4: RED
3
4
1
2
1040
SHIELD IOPCB P30
2: BLK
2: BLK
3
4: GRN
4
1
2
2: WHT
1: SHLD
3
1040, 33-1065
INTLK SOL PWR
INTLK SOL EXT
2 1
BLK
RED
1040/A,33-1065
INTLK SOL PWR
IOPCB P30/29
1040A
IOPCB P29
2
GRN
WHT
1
CABLE 1050, CE INTERLOCK SWITCH (33-1151A)
1: RED
2: BLK
2: BLK
3
2
1
1050, <ASSY #>
SAFTY SW CE
FRONT PNL
3: RED
4: BLK
5: BLK
ASSY. #
MACHINE
33-1151A TL-1/2 CE/DOM
33-1153A TL-3 CE/DOM
33-1158
TL-4
116
1
1050, <ASSY #>
SAFTY SW CE
I/O PCB P8
1: RED
LENGTH
LABEL 1 <LINE 2>
LABEL 2 <LINE 2>
12.00 FT
14.70 FT
21.00 FT
SAFTY SW CE
SAFTY SW CE
HOLD TO RUN
SAFTY SW CE
SAFTY SW CE
HOLD TO RUN
Electrical Service
96-0284 rev H
© Haas Automation January 2010
CABLE 1070, SKIP DUAL PROBE (33-9103B)
78.0 IN
15.0 IN
1070, 33-9103B
SKIP
I/O PCB P22
SKIP RTN
WHITE
BLK <GND>
WHT <GND>
YEL <SIG>
BLACK
1
SKIP RTN
YELLOW
TOTAL L = 18 IN
M22 N/C
M22 N/C
RED
RED
YEL
M22 COMN
BLK
BLK
M22 N/O
CABLE 1070, SKIP DUAL PROBE
M22 N/O
W/8M
(33-9108)
78.0 IN
15.0 IN
1070, 33-9108
SKIP
I/O PCB P22
SKIP RTN
WHITE
BLK <GND>
WHT <GND>
YEL <SIG>
BLACK
1
SKIP RTN
M22 N/C
YELLOW
TOTAL L = 78 IN
M22 N/C
RED
YEL
RED
M22 COMN
BLK
BLK
M22 N/O
96-0284 rev H
© Haas Automation January 2010
M22 N/O
Electrical Service
117
CABLE, 115V GFCI SW (33-0098C)
18.0 FT
115V/LINE
GOLD SCREW
BLK
33-0098C
115V SW
GFCI LOAD
115V AC
SW-1
33-0098C
115V SW
HIL J-BOX
BLK
RED
RED
115V/LINE
SLVR SCREW
115V AC
SW-4
CABLE, ETHERNET DATA OPTION ICOP 3’ (33-0221)
(WIRE SIDE)
11 2
3
5
7
1
118
4
6
8
ORG/WHT (Tx+)
ORG (Tx-)
GRN/WHT (Rx+)
BLU (CMT)
BLU/WHT (CMT)
GRN (Rx-)
BRN/WHT (CMT)
BRN (CMT)
33-0221
ENET DATA
ICOP J1
33-0221
ENET DATA
PANEL COUPLER
ORG/WHT (Tx+)
ORG (Tx-)
GRN/WHT (Rx+)
BLU (CMT)
BLU/WHT (CMT)
GRN (Rx-)
BRN/WHT (CMT)
PANEL COUPLER
BRN (CMT)
TIA/EIA 568B STANDARD
Electrical Service
1
96-0284 rev H
© Haas Automation January 2010
CABLE, LOW VOLTAGE POWER SUPPLY - SINPRO 9
(33-0577A)
33-0577A VIDEO PWR
VIDEO PCB P1
33-0577A
LOW VOLT PS
PSUP P8
RED
RED
BLK
YEL
6
13
1
13
DETAIL DWG
BLK
1
WHT
RED
BLK
1
1
33-0577A PROC PWR
PROCESSOR J3
RED
YEL
BLK
1
WHT
33-0577A
MOCON-1 PWR
MOCON PCB P15
1
13. YEL<+12V DC>
12. BLK <GND>
11. BLK <GND>
10. WHT <-12V DC>
9. BLK <GND>
8. BLK <GND>
7. BLK <GND>
6. RED <+5V DC>
5. RED <+5V DC>
4. RED <+5V DC>
3. RED <+5V DC>
2. YEL<+12V DC>
1. YEL<+12V DC>
AMP
YEL
BLK
WHT
YEL
BLK
WHT
33-0577A
LVPS PWR OUT (LVPS J2)
DELTA CONTACT - VECTOR DRIVE CABLE 10HP (33-0696A)
12V BEEPER CABLE (33-0705A)
12.0 IN
BEEP
NEG
96-0284 rev H
© Haas Automation January 2010
RED
1
BEEP
POS
RED (POS)
BLK (NEG)
BLK
33-0705A
SKBIF P5
Electrical Service
119
SIDE-MOUNT TOOL CHANGER BRAKE RESISTOR CABLE (33-0815B)
25.0 IN
4
3
2
1
1: BLK
33-0815B
BRAK RESISTOR
I/O PCB P57
33-0815B
BRAK RESISTOR
SMTC BRAK RES
RED
4: RED
BLK
CABLE, USB ASSEMBLY - ICOP (32-0859)
1
(WIRE SIDE)
1
2
3
4
5
6
7
8
9
10
32-0859
ICOP USB
PC104 J13
1
RED
(VCC)
WHT
(-DATA 0)
GRN
(+DATA 0)
BLK
(GND)
CLR
(SHIELD)
1 VCC
2 -DATA
3 +DATA
4 GND
1.5 IN
RECEPTACLE
FRONT VIEW
9.0 IN
120
Electrical Service
96-0284 rev H
© Haas Automation January 2010
CABLE, AXIS MOTOR/ENCODER - 41.25 FT (32-1422B)
MOTOR ENCODER
CABLE
HOME SWITCH CONNECTOR
GRN/YEL
RED
MOTOR POWER
CABLE
A: WHT/YEL <A>
B: YEL </A>
C: WHT/BRN <B>
D: BRN </B>
E: ORN <C>
F: WHT/ORN </C>
G: WHT/RED 18AWG <GND>
H: RED 18AWG <+5 VDC>
M: BLK <GND>
N: WHT/BLK: <HOME SW>
WHT
BLK
WIRE SIDE OF
CONNECTOR
A
M
K
B
T
D
P
S
BLK <GND>
C
N
L
R
WHT/RED <GND>
WHT/BRN <B>
ORN <C>
E
J
H
2
WHT/YEL <A>
RED <+5V>
WHT/BLK <HOME SW>
YEL </A>
WHT/ORG </C>
F
G
G: SHIELD <DRAIN>
1
BRN </B>
SHIELD <DRAIN>
WIRE SIDE VIEW
1
WHT <HOME>
H: RED <+5VDC>
N: WHT <HOME SW>
M: BLK <GND>
BLK <GND>
RED <+5V>
GRN/YEL
WIRE SIDE OF SOCKET CONNECTOR
D: GRN/YEL
D
C
A
B
SRVO AMP
PH B
WHT
B: WHT
SRVO AMP
PH C
BLK
C: BLK
ASSY. #
MACHINE
32-1422B
Y-AXIS GR510/512/710/712
Encoder Cable
Motor Cable
U-AXIS APL20/20T, SL-20BAPL/TBAPL
Encoder Cable
Motor Cable
TT-AXIS SL-40L
Encoder Cable
Motor Cable
Y-AXIS SR-200
Encoder Cable
Motor Cable
32-1424D
32-2830C
32-2831
96-0284 rev H
© Haas Automation January 2010
SRVO AMP
PH A
RED
A: RED
MOTOR END OF CABLE
2
Electrical Service
LENGTH
TOLERANCE
43.00 FT
41.25 FT
±1.5% of Length
±1.5% of Length
32.50 FT
30.60 FT
±1.5% of Length
±1.5% of Length
34.60 FT
33.00 FT
±1.5% of Length
±1.5% of Length
39.00 FT
38.00 FT
±1.5% of Length
±1.5% of Length
121
CABLE, AXIS MOTOR/ENCODER - 14.25 FT (32-1425F)
HOME SWITCH CONNECTOR
MOTOR ENCODER
CABLE
GRN/YEL
RED
WHT
BLK
MOTOR POWER
CABLE
A: WHT/YEL <A>
B: YELLOW </A>
C:WHT/BRN <B>
D:BROWN </B>
E:ORANGE <C>
F:WHT/ORN</C>
G:WHT/RED <GND>
H:RED <+5 VDC>
M: WHT/BLU <GND>
N: BLU <HOME>
DRAIN SHIELD
WIRE SIDE OF
SOCKET CONNECTOR
M AB
L T NP C
K S R D
E
J G
H F
24AWG/ 5TP
WHT/YEL
RED
BLU
YEL
WHT/ORN
2
<A>
<+5VDC>
<HOME>
</A>
</C>
WHT/BLU
<GND>
1
<GND>
<B>
<C>
WHT/RED
WHT/BRN
ORN
BRN
WIRE SIDE VIEW
H: RED <+5 VDC>
N: WHT <HOME>
M: BLK <GND>
24AWG /TRIO
1
2
</B>
SHIELD
WHT <HOME>
<DRAIN>
BLK <GND>
RED <+5V>
WIRE SIDE OF CONNECTOR
MOCON END OF CABLE
WIRE SIDE OF SOCKET CONNECTOR
MOTOR END OF CABLE
D: GRN/YEL
GRN/YEL
RED
A: RED
D
C
122
A
B: WHT
14AWG / 4 COND.
B
C: BLK
WHT
BLK
Electrical Service
SRVO AMP
PH A
SRVO AMP
PH B
SRVO AMP
PH C
96-0284 rev H
© Haas Automation January 2010
CABLE, AXIS MOTOR/ENCODER - 14.25 FT (32-1425F) TABLE
ASSY. #
MACHINE
32-1425F
X-AXIS VF1/2, VM2, VF2SS, GRs, MM, SMM
Y-AXIS VF6-11
Encoder Cable
Motor Cable
X-AXIS VF6-11, VR-8/9/11, EC-1600
Encoder Cable
Motor Cable
X-AXIS VF-3/4/5, VF-3/4SS, VM3
Encoder Cable
Motor Cable
X-AXIS TL-3/3W
Encoder Cable
Motor Cable
X-AXIS GT-20
Encoder Cable
Motor Cable
PC-AXIS EC-630
Encoder Cable
Motor Cable
Y-AXIS VF1-5, VM3, VF2-4SS, TM1/2
Encoder Cable
Motor Cable
Y-AXIS MM, SMM
Encoder Cable
Motor Cable
Z-AXIS SL-10 (ALL)
Encoder Cable
Motor Cable
Z-AXIS VF-5/50
Encoder Cable
Motor Cable
Z-AXIS EC-400/500/400PP
Encoder Cable
Motor Cable
Z-AXIS VF6-11/50, VR8/9/11
Encoder Cable
Motor Cable
Z-AXIS TL-1/2/3/3W
Encoder Cable
Motor Cable
V-AXIS APL20/T, SL-20BAR/TBAPL
Encoder Cable
Motor Cable
Y-AXIS MDC-500
Encoder Cable
Motor Cable
A-AXIS SL-10 (ALL)
Encoder Cable
Motor Cable
TT-AXIS SL-40B/TB
TS-AXIS TL25/B
Encoder Cable
Motor Cable
TS-AXIS TL-15/B
Encoder Cable
Motor Cable
Z-AXIS VF-3&4/50
Encoder Cable
Motor Cable
32-1429F
32-1437F
32-1557A
32-1609A
32-1625
32-1438F
32-1528A
32-1426F
32-1428F
32-1508B
32-1530A
32-1541B
32-1539A
32-1549B
32-2800G
32-2802A
32-2810H
32-1630
96-0284 rev H
© Haas Automation January 2010
Electrical Service
LENGTH
TOLERANCE
16.00 FT
14.25 FT
±3.00 IN
±3.00 IN
28.50 FT
27.00 FT
±4.00 IN
±4.00 IN
20.25 FT
18.50 FT
±3.50 IN
±3.50 IN
14.25 FT
12.50 FT
±3.00 IN
±3.00 IN
8.20 FT
9.50 FT
±2.00 IN
±2.00 IN
26.25 FT
23.50 FT
±1.5% of Length
±1.5% of Length
9.75 FT
8.00 FT
±2.00 IN
±2.00 IN
14.00 FT
12.25 FT
±2.50 IN
±2.50 IN
7.80 FT
11.70 FT
±2.00 IN
±2.00 IN
7.00 FT
8.00 FT
±2.00 IN
±2.00 IN
20.00 FT
18.25 FT
±3.00 IN
±3.00 IN
11.00 FT
12.00 FT
±2.50 IN
±2.50 IN
9.50 FT
7.75 FT
±2.00 IN
±2.00 IN
18.00 FT
15.40 FT
±2.50 IN
±2.50 IN
17.00 FT
18.90 FT
±2.50 IN
±2.50 IN
13.50 FT
18.00 FT
±2.50 IN
±2.50 IN
22.10 FT
20.00 FT
±1.5% of Length
±1.5% of Length
19.30 FT
17.70 FT
±2.50 IN
±2.50 IN
11.00 FT
12.00 FT
±2.00 IN
±2.00 IN
123
CABLE, AXIS MOTOR/ENCODER BRAKE - 28.9 FT (32-1434D)
HOME SWITCH CONNECTOR
MOTOR ENCODER CABLE
DRAIN WIRE
GRN/YEL
RED
WHT
BLK
MOTOR POWER CABLE
RED
BLK
DRAIN
MOTOR BRAKE CABLE
WIRE SIDE
OF SOCKET
CONNECTOR
A: WHT/YEL <A>
B: YELLOW </A>
C:WHT/BRN <B>
D:BROWN </B>
E:ORANGE <C>
F:WHT/ORN</C>
G:WHT/RED <GND>
H:RED <+5 VDC>
M: WHT/BLU <GND>
N: BLU <HOME>
DRAIN SHIELD
A
M
L
T
N
S
K
J
H
B
F
<A>
<+5VDC>
<HOME>
</A>
</C>
WHT/BLU
C
P
R
G
2
WHT/YEL
RED
BLU
YEL
WHT/ORN
D
WHT/RED
WHT/BRN
ORN
E
1
BRN
WIRE SIDE VIEW
2
<GND>
<GND>
<B>
<C>
</B>
SHIELD
1
<DRAIN>
WIRE SIDE
OF
CONNECTOR
WHT <HOME>
H: RED <+5 VDC>
N: WHT <HOME>
M: BLK <GND>
BLK <GND>
RED <+5V>
SRVO AMP
PH C
BLK
A: RED <PH-A>
B: WHT <PH-B>
C: BLK <PH-C>
D: GRN/YEL <GND>
D: SHLD <DRAIN>
E: RED <20AWG> <BRK>
F: BLK <20AWG> <BRK>
WHT
A
F
G
B
E
D
C
WIRE SIDE OF
CONNECTOR
124
SRVO AMP
PH B
GRN/YEL
I/O P79
TRANS P9
Electrical Service
SRVO AMP
PH A
RED
RED
BLK
DRAIN
96-0284 rev H
© Haas Automation January 2010
CABLE, AXIS MOTOR/ENCODER BRAKE - 28.9 FT (32-1434D) TABLE
ASSY. #
MACHINE
32-1434D
X-AXIS SL-40L
Encoder Cable
Motor Cable
Motor Brake Cable
W-AXIS APL20T/SL20BAPL/SL20TBAPL
Encoder Cable
Motor Cable
Motor Brake Cable
X-AXIS SL-20/T/B/BAPL/TBAPL, TL-15/B,
SL-30/T/B/TB, TL-25/B
Encoder Cable
Motor Cable
Motor Brake Cable
X-AXIS SL-10 (ALL)
Encoder Cable
Motor Cable
Motor Brake Cable
Z-AXIS VF1-4, MM, SMM, VF2SS, VM2
Encoder Cable
Motor Cable
Motor Brake Cable
X-AXIS SL-40B/TB
Encoder Cable
Motor Cable
Motor Brake Cable
Y-AXIS EC-400/500/400PP
Encoder Cable
Motor Cable
Motor Brake Cable
32-1448D
32-1449C
32-1534C
32-1536B
32-1537A
32-1509B
96-0284 rev H
© Haas Automation January 2010
Electrical Service
LENGTH
TOLERANCE
30.70 FT
28.90 FT
28.90 FT
±1.5% of Length
±1.5% of Length
±1.5% of Length
28.00 FT
26.00 FT
26.00 FT
±1.5% of Length
±1.5% of Length
±1.5% of Length
19.60 FT
17.90 FT
17.90 FT
±3.50 IN
±3.50 IN
±3.50 IN
14.75 FT
17.00 FT
17.00 FT
±3.00 IN
±3.00 IN
±3.00 IN
7.00 FT
8.00 FT
8.00 FT
±2.00 IN
±2.00 IN
±2.00 IN
25.00 FT
23.00 FT
23.00 FT
±1.5% of Length
±1.5% of Length
±1.5% of Length
17.10 FT
19.00 FT
19.00 FT
±1.5% of Length
±1.5% of Length
±1.5% of Length
125
CABLE, AXIS MOTOR/ENCODER - 8.25 FT (32-1491B)
Motor End
A: WHT/YEL <A>
B: YELLOW </A>
C:WHT/BRN <B>
M A B
D:BROWN </B>
N
E:ORANGE <C>
L
C
P
T
F:WHT/ORN</C>
D
K
S
R E
G:WHT/RED <GND>
G
J
H:RED <+5 VDC>
F
H
M: WHT/BLU <GND>
DRAIN SHIELD
N: BLU <HOME>
WHT/YEL
RED
BLU
YEL
WHT/ORN
2
<+5VDC>
<HOME>
</A>
</C>
WHT/BLU
24AWG/ 5TP
WHT/RED
WHT/BRN
ORN
<A>
1
2
<GND>
1
<GND>
<B>
<C>
BRN
</B>
SHIELD
<DRAIN>
MOCON END OF CABLE
GRN/YEL
D: GRN/YEL
SRVO AMP
PH A
RED
D
C
A
B
A: RED
14AWG / 4 COND.
B: WHT
WHT
BLK
C: BLK
SRVO AMP
PH B
SRVO AMP
PH C
WIRE SIDE OF SOCKET CONNECTOR
MOTOR END OF CABLE
CABLE, AXIS MOTOR/ENCODER - 8.25 FT (32-1491B) TABLE
ASSY. #
MACHINE
32-1491B
TC-AXIS VF-2/3/4SS, VF-2/3SSYT
Encoder Cable
Motor Cable
TC-AXIS VF-6SS
Encoder Cable
Motor Cable
TC-AXIS EC-300/1600/2000, MDC-500
LT-AXIS SL-40/B
Encoder Cable
Motor Cable
TC-AXIS EC-400/500
Encoder Cable
Motor Cable
C-AXIS SL20/B/T/TB, TL15/B, APL20/T
Encoder Cable
Motor Cable
C-AXIS SL30/B/T/TB, TL-25/B
Encoder Cable
Motor Cable
C-AXIS SL-40B/TB, SL-40L
Encoder Cable
Motor Cable
LT-AXIS SL-30B/TB
Encoder Cable
Motor Cable
LT-AXIS SL-40L
Encoder Cable
Motor Cable
32-1597
32-1506A
32-1602A
32-1517A
32-1518A
32-1519A
32-1532A
32-1533A
126
Electrical Service
LENGTH
TOLERANCE
8.25 FT
9.25 FT
±2.00 IN
±2.00 IN
13.50 FT
14.50 FT
±3.00 IN
±3.00 IN
22.00 FT
20.25 FT
±3.00 IN
±3.00 IN
25.00 FT
23.25 FT
±3.00 IN
±3.00 IN
17.00 FT
14.80 FT
±3.00 IN
±3.00 IN
19.00 FT
16.80 FT
±3.50 IN
±3.50 IN
21.00 FT
18.80 FT
±1.5% of Length
±1.5% of Length
19.90 FT
17.50 FT
±3.00 IN
±3.00 IN
26.10 FT
23.70 FT
±1.5% of Length
±1.5% of Length
96-0284 rev H
© Haas Automation January 2010
CONTACTOR INTERCONNECTION CABLE - 10HP (33-1963)
BLK
RED
BLU
CABLE, REMOTE JOG HANDLE ASSEMBLY - MOLDED (33-5751F)
WIRE SIDE OF
CONNECTOR
4.5 IN
WHT/BRN <GND>
WHT/YEL <X10>
WHT/ORG <Z>
REM JOG IF SIDE
WHT/BLK <Y>
1
2
33-5751F
JOG HNDL
RJOG P1
VIO <B>
BRN <0VDC>
WHT/GRY <FH>
GRN <X1>
YEL <4>
BLK/WHT <C/S>
16
BLU <X>
BLK <+5VDC>
RED <A>
2
1.32
.59
33-5751F
JOG HNDL
SKBIF J2
15
1
1
2
16
15
WHT/ORG <Z>
WHT/YEL <X10>
CLEAR <SHLD>
WHT/BRN
1.13
MADE IN U.S.A.
WHT/GRY
ASSY #
33-5751E
JOG HNDL
SKBIF P6
6 IN
20 IN
3.06
FRONT
PANEL
END
1
WHT/BLK <Y>
BLK/WHT
.56
2
YEL <4>
GRN <X1>
BRN <0VDC>
VIO <B>
1.13
.56
.28
RED <A>
BLK <+5>
BLU <X>
1
CYC.
STRT
GND
FEED
HOLD
WIRE SIDE OF
CONNECTOR
(0.60)R., THREE SIDES
(0.750)
R(0.06)
(0.500)
(3.78°)
(0.050)
(0.145)
REMOTE JOG HANDLE END
(2.300)
(0.980) (0.855)
(0.586)
(0.075)
(0.100) TYP. 'SLOTS'
(0.160)
(0.570)
(0.050) TYP. 'RIBS'
(0.210)
96-0284 rev H
© Haas Automation January 2010
Electrical Service
127
CABLE, +12V/+5V/GND LCD 30W POWER SUPPLY UNIT (33-8260C)
14.0 IN
<+5V>
<GND>
BLK
<GND>
<+12V>
33-8620C, PS TB2
SKBIF J12, FLOPPY
DIFF REC P1
RED
BLK
1
YEL
<+12V> YEL
<GND> BLK
1
YEL <+12V>
1
1
<GND> BLK
<+5V> RED
128
1
N/C
BLKx2 <GND>
BLKx2 <GND>
RED <+5V>
RED <+5V>
12.0 IN
Electrical Service
96-0284 rev H
© Haas Automation January 2010
13
12
2
25
1
15
26
25
12
13
14
14
15
<ASSY #>
LVDS VIDEO
VIDEO PCB J2
2
<ASSY #>
LVDS VIDEO
DIFF REC J3
1
26
LVDS VIDEO DATA CABLE (33-8264A)
LAST POSITION
POSITION 2
26
14
22 15
25
2
12
POSITION 1
13
1
POSITION 3
LENGTH
1
14
2
15
3
16
4
17
5
18
6
19
7
20
8
21
9
22
10
23
11
24
12
25
13
26
BLK/RED
RED/BLK
BLK/WHT
WHT/BLK
BLK/GRN
GRN/BLK
BLK/BLU
BLU/BLK
BLK/YEL
YEL/BLK
BLK/BRN
BRN/BLK
BLK/ORN
ORN/BLK
RED/WHT
WHT/RED
RED/GRN
GRN/RED
RED/BLU
BLU/RED
RED/YEL
YEL/RED
RED/BRN
BRN/RED
RED/ORN
ORN/RED
96-0284 rev H
© Haas Automation January 2010
ASSY. #
MACHINE
LENGTH
TOLERANCE
33-8263
33-8264A
33-8265
33-8266
33-8267
33-8268
33-8269
33-8270
33-8272
CSM (ALL)
VF0-2, VF-E, VB-1
ML, TRM
VF6-8
VF-3/4/5, SL10/20/30
HS (ALL)
SL-40
SL-40LB
OM-1/OL-1
1.50 FT
12.50 FT
9.00 FT
16.00 FT
14.50 FT
7.85 FT
19.00 FT
23.00 FT
6.00 FT
0.50 IN
±3.00 IN
±2.00 IN
±3.00 IN
±3.00 IN
±1.50 IN
±3.00 IN
1.5% of L
±2.00 IN
Electrical Service
BLK/RED
RED/BLK
BLK/WHT
WHT/BLK
BLK/GRN
GRN/BLK
BLK/BLU
BLU/BLK
BLK/YEL
YEL/BLK
BLK/BRN
BRN/BLK
BLK/ORN
ORN/BLK
RED/WHT
WHT/RED
RED/GRN
GRN/RED
RED/BLU
BLU/RED
RED/YEL
YEL/RED
RED/BRN
BRN/RED
RED/ORN
ORN/RED
1
14
2
15
3
16
4
17
5
18
6
19
7
20
8
21
9
22
10
23
11
24
12
25
13
26
129
CABLE, MORI 60 TOOL CHANGER RECEPTACLE OUTPUTS (32-8156A)
(10) RED 115VAC - I/O P28
(7) BRN Y010 M/C Q5
1
8
4
14
20
28
(14) YEL YO12 M/C Q7
(12) WHT/ORG Y013 M/C Q8
(1) WHT Y014 M/C Q1
(4) WHT/BLK Y015 M/C Q2
(2) WHT/BRN Y016 M/C Q3
VIO
15
26
(8) ORG Y011 M/C Q6
YEL
ORG
WHT/ORG
BRN
GRN/YEL
WHT/BRN
WHT
WHT/BLK
RED
(15) WHT/RED YO17M/C Q4
WHT/RED
DRAIN
WHT/YEL
BLU
GRY
WHT/BLU
WHT/GRN
(28) GRY Y018 I/O P45
(19) WHT/BLU YO1A I/O Q11
(11) VIO YO1B I/O Q12
(20) WHT/GRN YO1C I/O Q9
(27) BLU SPARE
(26) WHT/YEL SPARE
(6) GRN/YEL CHASSIS GRD
130
Electrical Service
96-0284 rev H
© Haas Automation January 2010
FRONT ENCLOSURE SIGNAL CABLE (32-6662D)
GRN/YEL [GND]
A: GRN [PAL DWN SW]
B: WHT [PAL UP SW]
D: SHIELD
E: BRN [PAL ALARM]
F: BRN/WHT [PAL ALRM RTN]
G: GRN/YEL [GND]
H: SHIELD
J: ORG [CW ROT]
L: SHIELD
M: BRN [PAL RDY LITE RING]
P: BLK [PC OP LOCK SW]
Q: RED [WORK LITE]
R: RED [FRNT DR SW]
T: BLU [2ND ESTOP]
U: WHT [2ND ESTOP RTN]
V: RED/WHT [PAL UP SOL RTN]
BLK/WHT [PAL UP SOL RTN]
W: BLK [PAL DWN SOL]
X: BLK [PAL RDY SW RTN]
BRN [ROT RTN]
Y: RED [PAL RDY SW]
Z: ORG [PAL RDY LITE]
b: BLK [WRK LITE RTN]
d: RED [PAL UP SOL]
e: BLU [PAL DWN SW RTN]
A
B
C
D
F
W
G
H
X
J
2: BLK [PAL DWN SOL]
N
Z
d
1: RED/WHT [PAL UP SOL RTN]
P
a
e
c
V
R
b
T
U
E
2: RED [PAL UP SOL]
S
M
Y
1: BLK/WHT [RTN]
L
1: BLK [SAFETY SOL]
12V Signals
4: BRN [PAL ALARM]
2: BRN/WHT [PAL ALRM RTN]
1: RED [WRK LITE]
3: WHT [PAL UP SW]
2: BLK [WRK LITE RTN]
4
5: BRN [PAL RDY LIT RTN]
4: GRN [PAL DWN SW]
2: BLU [PAL
DWN SW RTN]
4
10: ORG [PAL RDY LITE]
2 RED [FRNT DR SW]:
1: BLK [PC
OP LOCK SW]
2: RED [SFTY SOL]
K
9: BLU [2ND E-STOP]
8: GRN [CCW ROT]
7: ORG [CW ROT]
4
6: RED [PAL RDY SW]
1: BLK [PAL
RDY SW RTN]
6
7
1
2
3
9
10
4
5
2: BRN [ROT RTN]
4: WHT [2ND ESTOP RTN]
96-0284 rev H
© Haas Automation January 2010
Electrical Service
131
REMOTE JOG HANDLE ENCODER CABLE (33-5755)
5.0 IN
PANDUIT PDL 42
PANDUIT PDL 42
ENC
0V
RED
ENC
+5V
BLK
PANDUIT PDL 42
PANDUIT PDL 42
+5V
0V
A
B
YEL
ENC
A
WHT
ENC
B
CABLE, CE/KEY/2ND HOME/AUTO DOOR (33-6039A)
16.0 IN
BLK
RED
33-6039A
CE PB
EDIT LOCK
KEY SW
RED
RED
BLK
RED
AUTO DOOR
PUSH BUTTON
BLK
TP/22AWG
RED
BLK
33-6039A
2ND HOME
RED
BLK
TP/22AWG
2: RED
132
BLK
BLK
33-6039A
KEY LOCK
2nd HOME
PUSH
BUTTON
RED
TP/22AWG
1
CE PUSH
BUTTON
1
1: BLK
33-6039A
ATO DR PB
TP/22AWG
33-6039A
OP SW
SKBIF PCB J10
6.0 IN
Electrical Service
96-0284 rev H
© Haas Automation January 2010
ALARMS
Any time an alarm is present, the lower right hand corner of the screen will have a blinking “Alarm”. Push the
Alarm display key to view the current alarm. All alarms are displayed with a reference number and a complete
description. If the Reset key is pressed, one alarm will be removed from the list of alarms. If there are more
than 18 alarms, only the last 18 are displayed and the Reset must be used to see the rest. The presence of
any alarm will prevent the operator from starting a program.
The Alarms Display can be selected at any time by pressing the Alarm Mesgs button. When there are no
alarms, the display will show No Alarm. If there are any alarms, they will be listed with the most recent alarm
at the bottom of the list. The Cursor and Page Up and Page Down buttons can be used to move through a
large number of alarms. Cursor right and left buttons can be used to turn on and off the Alarm history display.
Note that tool changer alarms can be easily corrected by performing Umbrella ATCS Recovery. First, correct
any mechanical problem, press Reset until the alarms are clear, select Zero Ret mode, and select Auto All
Axes. Some messages are displayed while editing to tell the operator what is wrong, but these are not alarms.
The following alarm list shows alarm numbers, text displayed along with the alarm, and a detailed description
of the alarm, what can cause it, when it can happen, and how to correct it. If alarm numbers have different
meanings between lathes and mills, it is indicated with a (L) or a (M) directly after the alarm number or
wording to which the text pertains. (L) and (M) do not appear in the alarm numbers on the machine display.
101 MOCON COMM. FAILURE - A self-test of communications between the MoCon and Main Processor
failed. This can be caused by a software error or a hardware failure. Check the software release notes.
Check cable/power connections and re-seat or replace address and data bus cables. This alarm can also be
caused by a MoCon memory fault. Check status lights.
102 SERVOS OFF - Indicates that the servo motors are off, the tool changer is disabled, the coolant pump
is off, and the spindle motor is stopped. Caused by Emergency Stop, motor fault, or power failure. Will also
appear upon start up of machine as an informative alarm. Press RESET to power servos on.
103 X SERVO ERROR TOO LARGE - Load on X-axis Servomotor has exceeded parameter 9 X-axis Max
Error. Servos are turned off and you must push RESET to clear the alarm and turn on the servos. Dull cutting
tools or an incorrect program is exceeding the Max Load for this axis. Lathe: Servo brake on X axis motor
may not be disengaging. 24VDC is needed to release brake. Servo brake power is supplied from Trans/Brake
PCB P5/P9, or on I/O PCB P78/P79 when servos are powered on. Verify power to hydraulic card.
104 Y SERVO ERROR TOO LARGE - Load on Live Tool Servomotor has exceeded parameter 23 Y-axis Max
Error. Servos are turned off and you must push RESET to clear the alarm and turn on the servos. Dull cutting
tools or an incorrect program is exceeding the Max Load for this axis. Horizontal mill: Servo brake may not
be disengaging. 24VDC is needed to release brake. Power for servo brake is supplied from Trans/Brake PCB
P5/P9, or on I/O PCB P78/P79 when servos are powered on. Verify power to AMP +/- 12 325VDC Buss.
105 Z SERVO ERROR TOO LARGE - Load on Z-axis Servomotor has exceeded parameter 37 Z-axis Max
Error. Servos are turned off and you must push RESET to clear the alarm and turn on the servos. Dull cutting
tools or an incorrect program is exceeding the Max Load for this axis. Vertical mill: Servo brake may not be
disengaging. 24VDC is needed to release brake. Power for servo brake is supplied from Trans/Brake PCB
P5/P9, or on I/O PCB P78/P79 when servos are powered on. Verify power to AMP +/- 12 325VDC Buss.
106 A SERVO ERROR TOO LARGE - Load on the A-axis Servomotor has exceeded parameter 51 Z-axis
Max Error. The servos will be turned off and you must push RESET to clear the alarm and turn on the servos.
This is the Turret Index Servo; this alarm indicates that there is a problem with the Turret. The Turret may
have hit something while trying to index, or a mechanical problem that prevents normal movement may have
occurred. Verify power to AMP +/- 12 325VDC Buss.
Lathe: Turret may need motor coupling adjustment (See mechanical service manual for details). Turret may
have rotated before being completely unclamped. Check adjustment of Turret Locked/Unlocked switches.
96-0284 rev H
© Haas Automation January 2010
Alarms
133
107 EMERGENCY OFF - Emergency Stop button was pressed. Servos are also turned off. After the E-Stop is
released, the Reset button must be pressed at least twice to correct this; once to clear the E-Stop alarm and
once to clear the Servo Off alarm. This alarm will also be generated if there is a low pressure condition in the
hydraulic counterbalance system. In this case, the alarm will not reset until the condition has been corrected.
108 X SERVO OVERLOAD - The load on the X-axis Servo motor has been exceeded. Adjust your program
to reduce the tool load placed on the X-axis. Lathe: Servo brake on X axis motor may not be disengaging.
24VDC is needed to release brake. Power for servo brake is supplied from Trans/Brake PCB P5/P9, or on I/O
PCB P78/P79 when servos are powered on. Verify power to AMP +/- 12 325VDC Buss.
109 Y SERVO OVERLOAD - The load on the Live Tool Servo motor has been exceeded. Adjust your program
to reduce the tool load placed on the Live Tool Servo. Horizontal mill: Servo brake may not be disengaging.
24VDC is needed to release brake. Power for servo brake is supplied from Trans/Brake PCB P5/P9, or on I/O
PCB P78/P79 when servos are powered on. Verify power to AMP +/- 12 325VDC Buss.
110 Z SERVO OVERLOAD - The load on the Z-axis Servo motor has been exceeded. Adjust your program
to reduce the tool load placed on the Z-axis. Vertical mill: Servo brake may not be disengaging. 24VDC is
needed to release brake. Power for servo brake is supplied from Trans/Brake PCB P5/P9, or on I/O PCB P78/
P79 when servos are powered on. Verify power to AMP +/- 12 325VDC Buss.
111 A SERVO OVERLOAD - Excessive load on A-axis servo. Something is obstructing the turret; this is an
indication that there is a problem with the Turret Index Servo. Vertical mill with rotary: Rotary brake system
may not be releasing. Test brake system by temporarily disconnecting supplied air to brake. Verify correct
rotary model is selected in setting 30. Verify rotary parameters are correct.
112 NO INTERRUPT - Electronics fault. Call your dealer. No communication between processor and Mocon.
Power failure can be verified if Status LED on Mocon blinks four times at power up. Test +12 / -12 VDC to
Mocon PCB from LVPS.
113 (L) TURRET UNLOCK FAULT - The turret took longer to unlock and come to rotation position than
allowed for in Parameter 62. The value in Parameter 62 is in milliseconds. This may occur if the air pressure
is too low, the tool turret clamp switch is faulty or needs adjustment, or there is a mechanical problem.
113 (M) SHUTTLE IN FAULT - Tool changer is not completely to the right. During tool changer operation, the
tool in/out shuttle failed to get to the in position. Parameters 62 and 63 can adjust the time-out times. Verify
parameters 62 and 63 are set to Haas specifications. This alarm can be caused by anything that jams the
motion of the slide, the presence of a tool in the pocket facing the spindle, incorrect spindle orientation or a
loss of power to the tool changer. Check relays K9-K12 and fuse F1 on I/O PCB. Check the shuttle arm clutch
for wear. Check shuttle motor for rotation during tool change. Check motor brushes and test for power at
motor.
114 (L) TURRET LOCK FAULT - The turret took longer to lock and seat than allowed for in Parameter 63.
The value in Parameter 63 is in milliseconds. This may occur if the air pressure is too low, the tool turret
clamp switch is faulty or needs adjustment, or there is a mechanical problem. If the Turret has not rotated to
the correct position, the motor coupling may need adjustment. Debris between the male and female turret
couplings can prevent the turret from locking completely.
114 (M) SHUTTLE OUT FAULT - Tool changer is not completely to the left. During a tool changer operation
the tool in/out shuttle failed to get to the out position. Parameters 62 and 63 can adjust the time-out times.
Verify parameters 62 and 63 are set to Haas specifications. This alarm can be caused by anything that jams
the motion of the slide, the presence of a tool in the pocket facing the spindle (not when moving away from
the spindle), a loss of power to the tool changer. Check the shuttle arm clutch for wear. Check shuttle motor
for rotation during tool change. Check motor brushes and test for power at motor. Check relays K9-K12 on
and fuse F1 on I/O PCB.
Recover: Make sure shuttle is clear to move away from the spindle. Place something soft under the spindle to
catch a tool, which may fall. Press ZERO RET, then ALL to manually move shuttle to the left.
134
Alarms
96-0284 rev H
© Haas Automation January 2010
115 (L) TURRET ROTATE FAULT - Tool motor not in position. During a tool changer operation the tool turret
failed to start moving or failed to stop at the right position. Parameters 62 and 63 can adjust the time-out
times. This alarm can be caused by anything that jams the rotation of the turret. A loss of power to the tool
changer can also cause this, so check CB5, relays 1-8, 2-3, and 2-4.
115 (M) TURRET ROTATE FAULT - Tool carousel motor not in position. During a tool changer operation, the
tool turret failed to start moving or failed to stop at the right position. Turret motor may have rotated too fast
or too slow, causing the turret to stop in an incorrect position. Parameters 60 and 61 can adjust the time-out
times. This alarm can be caused by anything that jams the rotation of the turret, or a loss of power to the tool
changer. Check relays K9-K12 and fuse F1 on I/O PCB. Check turret motor brushes.
116 SPINDLE ORIENTATION FAULT - Spindle did not orient correctly. During a spindle orientation function,
the spindle rotated but never achieved proper orientation. This can be caused by failure of encoder, cables,
belts, MOCON or vector drive. Parameter 257 Spindle Orient Offset may not be set correctly, causing
misalignment with toolchangers.
117 SPINDLE HIGH GEAR FAULT - Gearbox did not shift into high gear. During a change to high gear,
the spindle is rotated slowly while air pressure is used to move the gears but the high gear sensor was not
detected in time. Parameters 67, 70 and 75 can adjust the time-out times for troubleshooting only. Check the
air pressure, the circuit breaker CB4 for the solenoids, and the spindle drive. In Diagnostics, check the status
of discrete inputs Spindle Hi Gear and Spindle Low Gear. One bit should read 0, the other a 1, then the bits
should change status when a gear change has completed.
118 SPINDLE LOW GEAR FAULT - Gearbox did not shift into low gear. During a change to low gear, the
spindle is rotated slowly while air pressure is used to move the gears but the low gear sensor was not
detected in time. Parameters 67, 70 and 75 can adjust the time-out times for troubleshooting only. Check
the air pressure, the solenoid’s circuit breaker CB4, and the spindle drive. In Diagnostics, check the status
of discrete inputs Spindle Hi Gear and Spindle Low Gear. One bit should read 0, the other a 1, then the bits
should change status when a gear change has completed.
119 OVERVOLTAGE - Incoming line voltage is above maximum. The servos are turned off and the spindle,
tool changer, and coolant pump stop. If this condition persists, an automatic shutdown begins after the interval
specified by Parameter 296. Under certain conditions, SMTC Recovery must be performed to clear the alarm.
Incorrect power or loss of power to MOCON can also cause this alarm. For office machines and all other
machines that use the 320V power supply, Parameter 315 bit 8 (Mini power supply) needs to be set to 1.
120 LOW AIR PRESSURE - Air pressure dropped below 80 psi for period defined by Parameter 76. The Low
Air PR alarm appears on the screen as soon as the pressure gets low, and this alarm appears after some
time has elapsed. Check your incoming air pressure for at least 100 psi and ensure that the regulator is set
at 85 psi. Test the I/O by jumpering pins 1 to 3 on P12 and watch diagnostics bit Low Air Press. Under certain
conditions, SMTC Recovery must be performed to clear the alarm.
121 LOW LUBE OR LOW PRESSURE - Way lube is low or empty or there is no lube pressure or too high a
pressure. Check tank at rear of machine and below control cabinet. Also check connector on the side of the
control cabinet. Check that the lube lines are not blocked. Test the lube pressure by manually operating the
pump by hand and watching the oil pressure gauge. With a full stroke of the pump, the pressure should read
35-40psi and should drop gradually to zero between 8-10 minutes. The pressure switch should also change
state when pump is cycled and its status can be viewed in diagnostics. Test the I/O by jumpering pins 1 to 2
on P13 and watch diagnostics.
122 REGEN OVERHEAT - The regenerative load temperature is above a safe limit. This alarm will turn off the
servos, spindle drive, coolant pump, and tool changer. One common cause of this overheat condition is an
input line voltage too high. If this condition persists, an automatic shutdown will begin after the interval specified by Parameter 297. It can also be caused by a high start/stop duty cycle of spindle.
123 SPINDLE DRIVE FAULT - Failure of spindle drive, motor or regen load. This can be caused by a shorted
motor, overvoltage, overcurrent, undervoltage, failure of drive or shorted or open regen load. Undervoltage
and overvoltage of DC bus are also reported as alarms 160 and 119, respectively.
96-0284 rev H
© Haas Automation January 2010
Alarms
135
124 LOW BATTERY - Memory batteries need replacing within 30 days. This alarm is only generated at power
on and indicates that the 3.3V Lithium battery is below 2.5 volts. If this is not corrected within about 30 days,
you may lose your stored programs, parameters, offsets, and settings. Back up memory before replacing the
battery as follows: Mill version 15 software and Lathe version 8 or earlier: Go to the position page, type a file
name, then press F2 to save parameters, offsets, and settings onto a floppy or USB device. Mill 16 and Lathe
9 or later: Go to List Programs, select the USB Device or NET drive tab, press F4, highlight Save All- Back
Up, and press Write/Enter.
125 (L) TOOL TURRET FAULT - Turret has not seated itself properly. There may be something obstructing
the turret between the housing and the turret itself.
125 (M) SHUTTLE FAULT - Tool shuttle not initialized at power on, Cycle Start, or spindle motion command.
This means that the tool shuttle was not fully retracted to the Out position. The shuttle In/Out switches may
not be functioning normally. This alarm can be caused by anything that jams the motion of the slide, a loss
of power to the tool changer. Check the shuttle arm clutch for wear. Check shuttle motor for rotation. Check
motor brushes and test for power at motor. Check relays K9-K12 on and fuse F1 on I/O PCB.
126 GEAR FAULT - Gearshifter is out of position when a command is given to start a program or rotate
the spindle. This means that the two speed gear box is not in either high or low gear but is somewhere in
between. Check the air pressure, the solenoid’s circuit breaker CB4, and the spindle drive. Use the Power Up/
Restart button to correct the problem.
127 (L) DOOR FAULT - The machine has detected a problem with the Auto Door. The door either did not
Close or Open as commanded. An obstruction or a faulty proximity switch can cause this.
127 (M) NO TURRET MARK - Tool carousel motor not in position. The Auto All Axes button will correct this,
but be sure afterwards that the pocket facing the spindle does not contain a tool. M39 can be used to command the turret to rotate if the pocket facing the spindle contains a tool.
128 (M) SUPER TRAVEL ENABLED ON MULTIPLE AXES - Two or more axes are enabled for super travel.
Only one axis is allowed super travel capability. Super travel is enabled when a tool change offset parameter
is greater than or less than normal travel limits. Check the Zero Axis TC, Max Travel, and Tool Change Offset
parameter values for the X and Y axes.
129 M FIN FAULT - M-Fin was active at power on. Check the wiring to your M code interfaces. This test is
only performed at power-on. Parameter 734 bit M-CODE FINISH may be inverted.
130 (L) CHUCK UNCLAMPED - The Cycle Start Button was push while the chuck was unclamped. Clamp
the Chuck and Re-Start the cycle. Check setting #92 for proper chuck clamping.
130 (M) TOOL UNCLAMPED - The tool appeared to be unclamped during spindle orientation, a gear change,
a speed change, or TSC start-up. The alarm is also generated if the tool release piston is energized during
Power Up. This can be caused by incorrect TRP switch function or adjustment, an air solenoid fault, relays on
the I/O assembly, draw bar assembly, or the wiring.
131 (M) TOOL NOT CLAMPED - When clamping or powering up the machine, the Tool Release Piston is
not Home. Check TRP switches for correct operation and adjustment. There is a possible fault in the air
solenoids, relays on the I/O Assembly, drawbar assembly, or wiring.
132 POWER DOWN FAILURE - Machine did not turn off when an automatic power-down was commanded.
Check wiring to Power Interface (POWIF) card on power supply assembly, relays on the I/O assembly, and
the main contact K1.
133 (L) SPINDLE BRAKE ENGAGED - The Spindle was commanded to start while the spindle was clamped
(M14) correct your part program (M15) to unclamp the spindle.
133 (M) SPINDLE INOPERATIVE - Spindle does not respond when spindle motion is commanded. This can
be caused by failure of encoder, cables, belts, MOCON, or vector drive.
136
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134 (L) LOW HYDRAULIC PRESSURE - Hydraulic pressure is sensed to be low or has not come up to
pressure within the time allowed in parameter 222. Check pump pressure and hydraulic tank oil level. Verify
proper pump and machine phasing. Also check 3-phase power phasing. Phase detector on power card should
have green light under PASS when machine is powered up.
134 (M) TOOL CLAMP FAULT - While unclamping, the tool did not release from spindle when commanded.
Check air pressure, solenoid circuit breaker CB4, and for maladjustment of the draw bar assembly.
135 X-AXIS MOTOR OVERHEAT - Servo motor overheat. The temperature sensor in the motor indicates
over 150° F (65° C). This can be caused by an extended overload of the motor; such as leaving the slide at
the stops for several minutes.
136 Y-AXIS MOTOR OVERHEAT - Servo motor overheat. The temperature sensor in the motor indicates
over 150° F (65° C). This can be caused by an extended overload of the motor; such as leaving the slide at
the stops for several minutes.
137 Z-AXIS MOTOR OVERHEAT - Servo motor overheat. The temperature sensor in the motor indicates
over 150° F (65° C). This can be caused by an extended overload of the motor; such as leaving the slide at
the stops for several minutes.
138 A-AXIS MOTOR OVERHEAT - Servo motor overheat. The temperature sensor in the motor indicates
over 150° F (65° C). This can be caused by an extended overload of the motor; such as leaving the slide at
the stops for several minutes. (Mill) Check parameter 43 bit OVER TEMP NC. Make sure the correct model
rotary has been selected in setting 30.
139 X-AXIS MOTOR Z FAULT - Encoder marker pulse count failure. This alarm usually means that the
encoder has been damaged and encoder position data is unreliable. It can also be caused by damaged motor
cable or a loose encoder cable connection on motor or encoder input on the Mocon PCB.
140 Y-AXIS MOTOR Z FAULT - Encoder marker pulse count failure. This alarm usually means that the
encoder has been damaged and encoder position data is unreliable. It can also be caused by damaged motor
cable or a loose encoder cable connection on motor or encoder input on the Mocon PCB.
141 Z-AXIS MOTOR Z FAULT - Encoder marker pulse count failure. This alarm usually means that the
encoder has been damaged and encoder position data is unreliable. It can also be caused by damaged motor
cable or a loose encoder cable connection on motor or encoder input on the Mocon PCB.
142 A-AXIS MOTOR Z FAULT - Encoder marker pulse count failure. This alarm usually means that the
encoder has been damaged and encoder position data is unreliable. It can also be caused by damaged motor
cable or a loose encoder cable connection on motor or encoder input on the Mocon PCB. (Mill) Check A-axis
cable connection on side of electrical cabinet.
143 (L) SPINDLE ORIENTATION LOST - Spindle orientation lost during a fine spindle control motion. This
can be caused by failure of encoder, cables, belts, MOCON, or vector drive. It can also be caused by failure
to orient spindle prior to G05, Fine Spindle Control Motion. Be sure to run M19 before G05.
143 (M) SPINDLE ORIENTATION LOST - Spindle orientation lost during a tool change operation. This can be
caused by failure of encoder, cables, belts, MOCON, or vector drive.
144 TIMEOUT - CALL YOUR DEALER - Time allocated for use prior to payment exceeded. Call your dealer.
145 X LIMIT SWITCH - Axis hit limit switch or switch disconnected. Home switch input changed state while
machine was in use. Stored stroke limits should stop the slides before they hit the limit switches. Verify the
value of Parameter 125, Grid Offset, and check the wiring to the limit switch. Can also be caused by a loose
encoder shaft at the back of the motor or coupling of motor to the screw. X limit switch may need replacement.
146 Y LIMIT SWITCH - Live Tooling hit limit switch or switch disconnected. Home switch input changed state
while machine was in use. Stored stroke limits should stop slides before they hit the limit switches. Verify the
value of Parameter 126, Grid Offset, and check the wiring to the limit switch. Can also be caused by a loose
encoder shaft at the back of the motor or coupling of motor to the screw. Y limit switch may need replacement.
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147 Z LIMIT SWITCH - Axis hit limit switch or switch disconnected. Home switch input changed state while
machine was in use. Stored stroke limits should stop the slides before they hit the limit switches. Verify the
value of Parameter 127, Grid Offset, and check the wiring to the limit switch. Can also be caused by a loose
encoder shaft at the back of the motor or coupling of motor to the screw. Z limit switch may need replacement.
148 A LIMIT SWITCH - Normally disabled for rotary axis.
149 (L) SPINDLE TURNING - The machine has detected that the spindle is still turning when it expects it
to be stopped. This is most likely cause by an incorrect parameter setting. Call your dealer for assistance
correcting this problem.
149 (M) SPINDLE TURNING - A signal from spindle drive indicating that ‘spindle drive is stopped’ is not
present while a tool change operation is going on.
150 (L) I_MODE OUT OF RANGE - Cycle power on the machine. If the alarm reoccurs, call your dealer and
report the sequence of events that led to the alarm.
150 (M) Z AND TOOL INTERLOCKED - Tool changer not at home and either the Z or A or B axis (or any
combination) is not at machine zero position. If RESET, E-STOP, or POWER OFF occurs during tool change,
Z-axis motion and tool changer motion may not be safe. Check the position of the tool changer and remove
the tool if possible. Re-initialize with the AUTO ALL AXES button but be sure that the pocket facing the spindle
afterwards does not contain a tool. For machines initialized as VR parameters 212 and 213 tool change offset
need to be set and parameters 269 and 270 Bit 4 both need to be 1 for a tool change to occur without this
alarm. This alarm can occur after a software upgrade with incorrect parameters.
151 (L) HPC LOW PRESSURE - A low coolant pressure condition has been detected. To disable this alarm,
set Parameter 209 Common Switch 2 DSBL CLNT IN to 1.
151 (M) LOW THRU SPINDLE COOLANT - For mills with Through the Spindle Coolant only. This alarm
will shut off the coolant spigot, feed, and pump all at once. It will turn on purge, wait for the amount of time
specified in Parameter 237, and then turn off the purge. Check for low coolant tank level, any filter or intake
strainer clogging, or for any kinked or clogged coolant lines. Verify proper pump and machine phasing. If no
problems are found with any of these, and none of the coolant lines are clogged or kinked, call your dealer.
152 SELF TEST FAIL - Control has detected an electronics fault. All motors and solenoids are shut down.
This is most likely caused by a fault of the processor board stack at the top left of the control. Call your dealer.
153 X AXIS Z CH MISSING - Z Reference signal from encoder was not received as expected. All servos are
turned off. Can be caused by loose connections, encoder contamination, or parameter error.
154 Y AXIS Z CH MISSING - Z Reference signal from encoder was not received as expected. All servos are
turned off. Can be caused by loose connections, encoder contamination, or parameter error.
155 Z AXIS Z CH MISSING - Z Reference signal from encoder was not received as expected. All servos are
turned off. Can be caused by loose connections, encoder contamination, or parameter error.
156 A AXIS Z CH MISSING - Z Reference signal from encoder was not received as expected. Can be caused
by loose connections, encoder contamination, or parameter error.
157 MOCON WATCHDOG FAULT - The self-test of the MOCON has failed. Call your dealer. Test +12, -12,
and +5 volt power at MOCON PCB. Unreliable power from LVPS can cause this alarm. Check alarm history
for Axis Drive Faults. A faulty axis driver can cause fluctuated or imbalanced low volt power to logic stack.
Problem may be caused by a shorted coolant level sensor, voltage sensor from vector drive, or thermocouple
sensor from X-axis ballscrew (lathe). Disconnecting cables, one at a time, on P34, P26, P27, P28, P17, P21,
and P22, may isolate the problem.
158 VIDEO/KEYBOARD PCB FAILURE - During power-on tests, the control has detected a problem in either
the keyboard or the video memory. Call your dealer.
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159 KEYBOARD FAILURE - Keyboard shorted or button pressed at power on. A power-on test of the
membrane keypad has found a shorted button. It can also be caused by a short in the cable from the main
cabinet or by holding a switch down during power-on.
160 (L) LOW VOLTAGE - The line voltage to control is too low. This alarm occurs when the AC line voltage
drops below the voltage specified by Parameter 294.
160 (M) LOW VOLTAGE - The line voltage to control is too low. This alarm occurs when the AC line voltage
drops more than 10% below nominal and when another alarm is already present. The voltage range of the
160VDC power supply can be from 145VDC to 175VDC and is adjusted by moving the taps on the main
transformer. The output voltage level is displayed on the second page of the diagnostics display.
161 X AXIS DRIVE FAULT - Current in X servo motor beyond limit. Possibly caused by a stalled or
overloaded motor. The servos are turned off. Can be caused by running the axis into a mechanical stop, a
short in the motor, or a short of one motor lead to ground.
162 Y AXIS DRIVE FAULT - (L) Current in Live Tooling servo motor beyond limit, (M) Current in Y servo motor
beyond limit. Possibly caused by a stalled or overloaded motor. The servos are turned off. Can be caused by
running the axis into a mechanical stop, a short in the motor, or a short of one motor lead to ground.
163 Z AXIS DRIVE FAULT - Current in Z servo motor beyond limit. Possibly caused by a stalled or
overloaded motor. The servos are turned off. Can be caused by running the axis into a mechanical stop, a
short in the motor, or a short of one motor lead to ground.
164 A AXIS DRIVE FAULT - Current in A servo motor beyond limit. Possibly caused by a stalled or
overloaded motor. The servos are turned off. Can be caused by running the axis into a mechanical stop, a
short in the motor, or a short of one motor lead to ground.
165 X ZERO RET MARGIN TOO SMALL - This alarm will occur if the home/limit switches move or are
misadjusted. It indicates that the zero return position may not be consistent from one zero return to the next.
The encoder Z channel signal must occur between 1/8 and 7/8 revolution of where the home switch releases.
This will not turn the servos off, but will stop the zero return operation. Check grid offset.
166 Y ZERO RET MARGIN TOO SMALL - This alarm will occur if the home/limit switches move or are
misadjusted. It indicates that the zero return position may not be consistent from one zero return to the next.
The encoder Z channel signal must occur between 1/8 and 7/8 revolution of where the home switch releases.
This will not turn the servos off, but will stop the zero return operation. Check grid offset.
167 Z ZERO RET MARGIN TOO SMALL - This alarm will occur if the home/limit switches move or are
misadjusted. It indicates that the zero return position may not be consistent from one zero return to the next.
The encoder Z channel signal must occur between 1/8 and 7/8 revolution of where the home switch releases.
This will not turn the servos off, but will stop the zero return operation. Check grid offset.
168 A ZERO RET MARGIN TOO SMALL - This alarm will occur if the home/limit switches move or are
misadjusted. It indicates that the zero return position may not be consistent from one zero return to the next.
The encoder Z channel signal must occur between 1/8 and 7/8 revolution of where the home switch releases.
This will not turn the servos off, but will stop the zero return operation. Check grid offset.
169 SPINDLE DIRECTION FAULT - Problem with rigid tapping hardware. The spindle started turning in the
wrong direction.
170(M) ENABLED AXIS NEEDS MOCON2 - An axis is enabled that has its MOCON channel parameter set
to a channel on MOCON 2 but a MOCON 2 was not detected.
171 (L) rpm TOO HIGH TO UNCLAMP - The spindle speed exceeded the max speed allow in Parameter 248
to unclamp. Reduce the speed of the spindle to a value less than or equal to Parameter 248.
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171 (M) APC-PALLET CLAMP TIMEOUT - The pallet in the mill did not clamp in the time allowed. Check for
foreign objects under the pallet and between the pallet and the clamp plate. Verify an adequate supply of air
pressure and volume. Check air solenoids for sticking and air release ports for clogging. Check pallet position
switch for correct operation, the switch and wiring for damage, and pallet alignment. Check the pallet clamp
mechanism for correct operation. After determining cause and correcting problem, run M50 P1 in MDI to
recover the pallet changer and continue operation. Parameter 320 specifies the pallet clamp timeout period.
172 (L) DOOR IS OPEN AND SPINDLE IS TURNING - The chuck is not allowed to unclamp while the door is
open and the spindle is on.
172 (M) APC-PALLET UNCLAMP TIMEOUT - The pallet in the mill did not unclamp in the time allowed.
Check for foreign objects between the pallet and the clamp plate. Verify there is an adequate supply of air
pressure and air volume. Check air solenoids for sticking and air release ports for clogging. Check the pallet
position switch for correct operation, the switch and wiring for damage and pallet alignment. Check the pallet
clamp plate for damage. After determining the cause and correcting the problem, run M50 P1 in MDI to
recover the pallet changer and then continue operation. Parameter 321 specifies the unclamp timeout period.
173 SPINDLE ENCODER Z CH MISSING - The Z channel pulse from the spindle encoder is missing for rigid
tapping synchronization.
174 (L) TOOL LOAD EXCEEDED - The tool load limit is set and the load limit for a tool was exceeded in a
feed. Reset the tool load limits in current commands for Spindle loads.
174 (M) TOOL LOAD EXCEEDED - The tool load limit is set and the load limit for a tool was exceeded in a
feed. Reset the tool load limits in current commands for Spindle loads.
175 GROUND FAULT DETECTED - A ground fault condition was detected in the 115V AC supply. This can
be caused by a short to ground in any of the servo motors, the tool change motors, the fans, or the oil pump.
176 OVERHEAT SHUTDOWN - An overheat condition persisted longer than the interval specified by
Parameter 297 and caused an automatic shutdown.
177 OVERVOLTAGE SHUTDOWN - An overvoltage condition persisted longer than the interval specified by
Parameter 296 and caused an automatic shutdown.
178 DIVIDE BY ZERO - There are some parameters that are used as a divisor and therefore must never
be set to zero. If the problem cannot be corrected by parameters, cycle power on the machine. If the alarm
reoccurs, call your dealer and report the sequence of events that led to the alarm.
179 LOW PRESSURE TRANS OIL - Transmission oil is low or low pressure condition in oil lines.
180 (M) PALLET/FIXTURE NOT CLAMPED - Pallet/Fixture clamped input indicates pallet or fixture is not
clamped and it is unsafe to run the spindle, jog an axis, or start a part program by pressing Cycle Start. It
could also mean that a previous pallet change was incomplete and the pallet changer needs to be recovered.
EC-300: Make sure there is no debris obstructing pallet clamp assy. The pallet clamp switch assembly may
need servicing. The switch assembly is located under the pallet, behind the clamp plate. EC-400/500: The
machine gets this alarm at beginning of a program if there is no pallet on the receiver. Check for debris between pallet and receiver. Check air pressure. Test switches at rotary union located under receiver. VFAPC:
Alarm occurs when the spindle is commanded, but the pallet is unclamped. E-Stop may have been pressed
during a pallet change. Run an M50 to reset the pallet changer. Pallet clamp switch may need servicing.
181 MACRO NOT COMPLETED - SPINDLE DISABLED - Macro code operating Haas optional equipment
(bar feeder, etc.) was not completed (E-Stop, Reset, Power Down, etc.). Check optional equipment and run
recovery procedure.
182 X CABLE FAULT - Cable from (axis) encoder does not have valid signals, incorrect motor selection,
faulty cable, faulty connections or faulty motor. Check parameters to be sure that the mocon channel and
encoder type parameters are correctly set. Check encoder cable connections at the mocon and motor. Check
Cable. Check motor.
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183 (L) LIVE TOOLING CABLE FAULT - Cable from (axis) encoder does not have valid signals, incorrect
motor selection, faulty cable, faulty connections or faulty motor. Check parameters to be sure that the mocon
channel and encoder type parameters are correctly set. Check encoder cable connections at the mocon and
motor. Check Cable. Check motor.
183 (M) Y CABLE FAULT - Cable from (axis) encoder does not have valid signals, incorrect motor selection,
faulty cable, faulty connections or faulty motor. Check parameters to be sure that the mocon channel and
encoder type parameters are correctly set. Check encoder cable connections at the mocon and motor. Check
Cable. Check motor.
184 Z CABLE FAULT - Cable from (axis) encoder does not have valid signals, incorrect motor selection,
faulty cable, faulty connections or faulty motor. Check parameters to be sure that the mocon channel and
encoder type parameters are correctly set. Check encoder cable connections at the mocon and motor. Check
Cable. Check motor.
185 A CABLE FAULT - Cable from (axis) encoder does not have valid signals, incorrect motor selection,
faulty cable, faulty connections or faulty motor. Check parameters to be sure that the mocon channel and
encoder type parameters are correctly set. Check encoder cable connections at the mocon and motor. Check
Cable. Check motor.
186 SPINDLE NOT TURNING - The spindle is not turning; check your program for G99 Feed Per Revolution
or G98 Feed Per Minute.
187 (L) B SERVO ERROR TOO LARGE - Too much load or speed on B-axis motor. The difference between
the motor position and the commanded position has exceeded a parameter. The motor may also be stalled,
disconnected, or the driver failed. The servos will be turned off and a Reset must be done to restart. This
alarm can be caused by problems with the driver, motor, or the slide being run into the mechanical stops.
187 (M) B SERVO ERROR TOO LARGE - Too much load or speed on B-axis motor. The difference between
the motor position and the commanded position has exceeded Parameter 159. The motor may also be
stalled, disconnected, or the driver failed. The servos will be turned off and a Reset must be done to restart.
This alarm can be caused by problems with the driver, motor, or the slide being run into the mechanical stops.
On machines with servo based tool changer chains, the chain was unable to move. On Machines with servo
based tool changer arms, the arm was unable to move, possibly due to a stuck tool.
188 B SERVO OVERLOAD - Excessive load on B-axis motor. This can occur if the load on the motor over a
period of several seconds or even minutes is large enough to exceed the continuous rating of the motor. The
servos will be turned off when this occurs. This can be caused by running into the mechanical stops but not
much past them. It can also be caused by anything that causes a very high load on the motors.
189 B-AXIS MOTOR OVERHEAT - Servo motor overheat. The motor’s temperature sensor indicates over
150° F. This can be caused by an extended overload of the motor; such as leaving the slide at the stops for
several minutes.
190 B MOTOR Z FAULT - Encoder marker pulse count failure. It usually indicates that the encoder has been
damaged and encoder position data is unreliable. This can also be caused by loose encoder connectors.
191 B LIMIT SWITCH - Normally disabled for rotary axis.
192 B AXIS Z CH MISSING - Z reference signal from encoder was not received as expected. Can be caused
by loose connections, encoder contamination, or parameter error.
193 B AXIS DRIVE FAULT - Current in B servo motor beyond limit. Possibly caused by a stalled or
overloaded motor. The servos are turned off. Running the axis into a mechanical stop can cause this. A short
in the motor or a short of one motor lead to ground can also cause it.
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194 B ZERO RET MARGIN TOO SMALL - This alarm will occur if the home/limit switches move or are
misadjusted. This alarm indicates that the zero return position may not be consistent from one zero return to
the next. The encoder Z channel signal must occur between 1/8 and 7/8 revolution of where the home switch
releases. This will not turn the servos off but will stop the zero return operation.
195 B CABLE FAULT - Cable from (axis) encoder does not have valid signals, incorrect motor selection,
faulty cable, faulty connections or faulty motor. Check parameters to be sure that the mocon channel and
encoder type parameters are correctly set. Check encoder cable connections at the mocon and motor. Check
Cable. Check motor.
196 (M) COOLANT SPIGOT FAILURE - Spigot failed to achieve commanded location after two (2) attempts.
197 MISC. SOFTWARE ERROR - This alarm indicates an error in the control software. Call your dealer and
report this problem.
198 SPINDLE STALLED - Control senses that no spindle fault has occurred; the spindle is at speed, yet the
spindle is not turning. Possibly the belt between the spindle drive motor and spindle has slipped or is broken.
199 NEGATIVE rpm - A negative spindle RPM was entered. Spindle speed commands must always be a
positive value.
200 VD OVER TEMP. - Vector drive over temperature. The Vector Drive’s temperature sensor indicates over
90°C (194° F) near the bridge rectifier. This can be caused by an extended overload condition of the Vector
Drive, a stopped fan or high room temperature. Check the fan to ensure it is working.
201 PARAMETER CRC ERROR - Parameters lost by low battery. Check for low battery/low battery alarm.
202 SETTING CRC ERROR - Settings lost by low battery. Check for a low battery/low battery alarm.
203 LEAD SCREW CRC ERROR - Lead screw compensation tables lost by low battery. Check for low
battery and low battery alarm. Save parameters to USB or other devise. Original parameters may need to be
reloaded. Lead Screw Comp Tables can be viewed by pressing PARAM DGNOS, then END, then <DOWN
ARROW>. Take note of comp tables. Are any numbers entered? Corrupted Comp tables can be cleared, if
needed, by pressing 0, then ORIGIN. Arrow down to Y and Z tables and clear them as well.
204 OFFSET CRC ERROR - Offsets lost by low battery. Check for a low battery and low battery alarm.
205 PROGRAMS CRC ERROR - Users program lost by low battery. Check for low battery and alarm.
206 INTERNAL PROG ERROR - Possible corrupted program. Save all programs to disk, delete all, then
reload. Check for a low battery and low battery alarm.
207 QUEUE ADVANCE ERROR - Cycle power on the machine. If the alarm reoccurs, call your dealer and
report the sequence of events that led to the alarm.
208 QUEUE ALLOCATION ERROR - Cycle power on the machine. If the alarm reoccurs, call your dealer and
report the sequence of events that led to the alarm.
209 QUEUE CUTTER COMP ERROR - Cycle power on the machine. If the alarm reoccurs, call your dealer
and report the sequence of events that led to the alarm.
210 INSUFFICIENT MEMORY - Not enough memory to load user program. Check the space available in the
LIST PROG and delete or download some programs to free memory.
211 ODD PROG BLOCK - Possible corrupt program. Save all programs to disk, delete all, and then reload.
212 PROG INTEGRITY ERROR - Possible corrupted program. Save all programs to disk, delete all, then
reload. Check for a low battery and low battery alarm.
213 PROGRAM RAM CRC ERROR - Electronics fault; possibly with main processor. Call your dealer.
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214 NO. OF PROGRAMS CHANGED - Indicates that the number of programs disagrees with the internal
variable that keeps count of the loaded programs. Possible processor problem, if this persists call your dealer.
This can happen when extended memory is turned on.
215 FREE MEMORY PTR CHANGED - Indicates amount of memory used by programs counted in system
disagrees with variable that points to free memory. Possible processor board problem. Call your dealer.
216 (L) PROBE ARM DOWN WHILE RUNNING - Indicates probe arm pulled down while running a program.
216 (M) EPROM SPEED FAILURE - Possible processor board problem.
217 X PHASING ERROR - Error occurred in phasing initialization of brushless motor. This can be caused by
a bad encoder, or a cabling error. Call your dealer.
218 Y PHASING ERROR - Error occurred in phasing initialization of brushless motor. This can be caused by
a bad encoder, or a cabling error.
219 Z PHASING ERROR - Error occurred in phasing initialization of brushless motor. This can be caused by
a bad encoder, or a cabling error.
220 A PHASING ERROR - Error occurred in phasing initialization of brushless motor. This can be caused by
a bad encoder, or a cabling error.
221 B PHASING ERROR - Error occurred in phasing initialization of brushless motor. This can be caused by
a bad encoder, or a cabling error.
222 C PHASING ERROR - Error occurred in phasing initialization of brushless motor. This can be caused by
a bad encoder, or a cabling error.
223 DOOR LOCK FAILURE - In machines equipped with safety interlocks, this alarm occurs when the control
senses the door is open but it is locked. Check the door lock circuit.
224 X TRANSITION FAULT - Illegal transition of encoder count pulses in X-axis. This alarm usually indicates
that the encoder has been damaged and encoder position data is unreliable. This can also be caused by
loose connectors at the MOCON PCB.
225 Y TRANSITION FAULT - Illegal transition of encoder count pulses in Live Tooling. This alarm usually
indicates that the encoder has been damaged and encoder position data is unreliable. This can also be
caused by loose connectors at the MOCON PCB.
226 Z TRANSITION FAULT - Illegal transition of encoder count pulses in Z-axis. This alarm usually indicates
that the encoder has been damaged and encoder position data is unreliable. This can also be caused by
loose connectors at the MOCON PCB.
227 A TRANSITION FAULT - Illegal transition of encoder count pulses in A-axis. This alarm usually indicates
that the encoder has been damaged and encoder position data is unreliable. This can also be caused by
loose connectors at the MOCON PCB.
228 B TRANSITION FAULT - Illegal transition of count pulses in B-axis. This alarm usually indicates that
the encoder has been damaged and encoder position data is unreliable. This can also be caused by loose
connectors at the MOCON PCB.
229 C TRANSITION FAULT - Illegal transition of count pulses in C-axis. This alarm usually indicates that
the encoder has been damaged and encoder position data is unreliable. This can also be caused by loose
connectors at the MOCON PCB.
230 (L) DOOR OPEN - Spindle rpm has exceeded max value in Parameter 586 while the door is open. Stop
the spindle, close the door, or lower spindle rpm to a value less than or equal to the value of Parameter 586.
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231 JOG HANDLE TRANSITION FAULT - Illegal transition of count pulses in jog handle encoder. This alarm
usually indicates that the encoder has been damaged and encoder position data is unreliable. This can
also be caused by loose connectors.
232 SPINDLE TRANSITION FAULT - Illegal transition of count pulses in spindle encoder. This alarm usually
indicates that the encoder has been damaged and encoder position data is unreliable. This can also be
caused by loose connectors at the MOCON.
233 JOG HANDLE CABLE FAULT - Cable from jog handle encoder does not have valid differential signals.
234 SPINDLE CABLE FAULT - Cable from spindle encoder does not have valid differential signals.
235 SPINDLE Z FAULT - Encoder marker pulse count failure. This alarm usually indicates that the encoder
mounted on the spindle has been damaged and encoder position data is unreliable. Loose encoder
connectors at P1-P4 can also cause this.
236 SPINDLE MOTOR OVERLOAD - The spindle motor is overloaded.
237 SPINDLE FOLLOWING ERROR - The error between the commanded spindle speed and the actual
speed has exceeded the maximum allowable (as set in Parameter 184).
238 (M) AUTOMATIC DOOR FAULT - The automatic door was commanded to operate, but did not complete
the operation. The door was:
1) Commanded to close but failed to contact the closed switch in the time allowed.
2) Commanded to open but failed to contact opened switch (not all doors have switch) in time allowed.
3) Commanded to open but did not begin moving in the time allowed.
Check door switch, door for mechanical binding, and that the door motor and clutch are functioning correctly.
239 UNKNOWN MOCON1 ALARM - Mocon has reported an alarm to the current software. The current
version of software was unable to identify the alarm. Check for loose MOCON cable connections. See
MOCON software release notes for additional diagnostics.
240 EMPTY PROG OR NO EOB - DNC program not found or no end of program found. Program structure
isn’t correct, there needs to be a % at the beginning or end of file. The program must have a program number
beginning with the letter “O”. Possible electrical noise effecting data transfer.
241 INVALID CODE - RS-232 load was bad. Data was stored as comment. Check the program received.
The erroneous data will be placed on the MESSAGES page as a comment with trailing question mark. Invalid
code will be visible in program as a comment with a trailing question mark.
242 NUMBER FORMAT ERROR-OR TOO LONG - Check input file for an improperly formatted number.
Number may have too many digits or multiple decimal points. The erroneous data will be placed on the
MESSAGES page as a comment with trailing question mark.
243 BAD NUMBER - Data entered is not a number.
244 MISSING (...) - Comments must begin ‘(‘ and end with a ‘)’. This alarm also occurs with a comment
greater than 80 characters long. The erroneous data is placed on the MESSAGES page as a comment with
trailing question mark. The offending blocks may also be visible in the program as a comment, search for (?).
245 UNKNOWN CODE - Check input line or data from RS-232. Alarm can occur while editing data into a
program or loading from RS-232. The erroneous data will be placed on the MESSAGES page as a comment
with trailing question mark. Offending blocks may also be visible in the program as a comment, search for (?).
246 STRING TOO LONG - Input line is too long. The data entry line must be shortened.
247 CURSOR DATA BASE ERROR - Cycle power on the machine. If the alarm reoccurs, call your dealer and
report the sequence of events that led to the alarm.
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248 NUMBER RANGE ERROR - Number entry is out of range. This could be caused by too many digits in an
alphabetical address or macro variable. The erroneous data will be placed on the MESSAGES page. Invalid
code may be visible in program as a comment with a trailing question mark.
249 PROG DATA BEGINS ODD - Possible corrupt program. Save all programs to disk, delete all, then reload.
250 PROG DATA ERROR - Possible corrupt program. Save all programs to disk, delete all, and then reload.
If the error persists, programs may have to be searched for error on PC, corrected then reloaded.
251 PROG DATA STRUCT ERROR - Possible corrupt program. Save all programs to disk, delete all, and
then reload. If the error persists, programs may have to be searched for error on PC, corrected then reloaded.
Back up all programs on USB or other device, delete all, and reload. Problem may return when programs
are reloaded. Programs should be reloaded one at a time to isolate the corrupted program. If any programs
cannot be deleted, please contact your dealer.
252 MEMORY OVERFLOW - Possible corrupt program. Save all programs to disk, delete all, and then reload.
If the error persists, programs may have to be searched for error on PC, corrected then reloaded.
253 ELECTRONICS OVERHEAT - The control box temperature has exceeded 140° F (60° C). This can be
caused by an electronics problem, high room temperature, or clogged air filter. Test +12, -12, and +5 volt
power at MOCON PCB.
254 SPINDLE MOTOR OVERHEAT - Motor driving spindle is too hot. This alarm is only generated in
machines equipped with a Haas vector drive. The spindle motor temperature sensor sensed a high
temperature for greater than 1.5 seconds.
255 (M) NO TOOL IN SPINDLE - There is an invalid tool number in the spindle entry of the Pocket-Tool table.
The spindle entry cannot be 0 and must be listed in the body of the table. If there is no tool in the spindle,
enter the number for an empty pocket into the spindle entry. If there is a tool number in the spindle entry,
make sure that it is in the body of the table and that the pocket is empty.
256 (M) CURRENT TOOL UNKNOWN - Current tool information has been lost. This is most likely due to reinitialization. It is likely that the next commanded tool change will result in a collision between the spindle and
a tool in a pocket. To eliminate the possibility of a crash, perform Tool Changer Restore. Do not use Power
Up/Restart, this will cause the machine to try to return a tool to the carousel.
257 PROG DATA ERROR - Possible corrupt program. Save all programs to disk, delete all, and then reload.
If the error persists, programs may have to be searched for error on PC, corrected then reloaded.
258 INVALID DPRNT FORMAT - Macro DPRNT statement not structured properly, check the formatting of
the DPRNT commands.
259 LANGUAGE VERSION - Problem with language files. Please reload foreign language files.
260 LANGUAGE CRC - Indicates Flash memory has been corrupted or damaged. Please reload foreign
language files.
261 ROTARY CRC ERROR - Rotary table saved parameters (used by Settings 30, 78) have a CRC error.
Indicates a loss of memory - possible processor board problem.
262 PARAMETER CRC MISSING - RS-232 or disk read of parameter had no CRC when loading from disk or
RS-232.
263 LEAD SCREW CRC MISSING - Lead screw compensation tables have no CRC when loading from disk
or RS-232.
264 ROTARY CRC MISSING - Rotary table parameters have no CRC when loading from disk or RS-232.
265 MACRO VARIABLE FILE CRC ERROR - Macro variable file has a CRC error. Indicates a loss of
memory. Possible corrupted file or processor board problem.
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266 (M) TOOL CHANGER FAULT - Run Tool Changer Recovery.
267 (M) TOOL DOOR OUT OF POSITION - This alarm will be generated on a horizontal mill during a tool
change when Parameter 278, TL DR Switch is set to 1, and the tool carousel air door switch indicates that the
door is open after it was commanded closed, or closed after it was commanded open. This alarm will most
likely be caused by a stuck or broken switch.
268 DOOR OPEN @ M95 START - Generated whenever an M95 (Sleep Mode) is encountered and the door
is open. The door must be closed in order to start sleep mode.
269 (M) TOOL ARM FAULT - The tool changer arm is not in position. Run Tool Changer Recovery.
270 C SERVO ERROR TOO LARGE - Too much load or speed on C-axis motor. The difference between the
motor position and the commanded position has exceeded Parameter 506. The motor may also be stalled,
disconnected, or the driver failed. The servos will be turned off and a Reset must be done to restart. This
alarm can be caused by problems with the driver, motor.
271 C SERVO OVERLOAD - Excessive load on C-axis motor. This can occur if load on motor over a period
of several seconds or minutes is large enough to exceed the motor’s continuous rating. The servos are turned
off when this occurs. This alarm can be caused by anything that causes a very high load on the motors.
272 C-AXIS MOTOR OVERHEAT - Servo motor overheat. The temperature sensor in the motor indicates
over 150° F. This can be caused by an extended overload of the motor such as leaving the slide at the stops
for several minutes.
273 C MOTOR Z FAULT - Encoder marker pulse count failure. It usually indicates that the encoder has been
damaged and encoder position data is unreliable. This can also be caused by loose encoder connectors.
274 C LIMIT SWITCH - Axis hit limit switch or switch disconnected. Stored stroke limits should stop the slides
before they hit the limit switches. Verify the value of parameter Grid Offset and check wiring to the limit switch.
Can also be caused by a loose encoder shaft at the back of the motor or coupling of motor to the screw.
275 C AXIS Z CH MISSING - Z reference signal from encoder was not received as expected. Can be caused
by loose connections, encoder contamination, or parameter error.
276 C AXIS DRIVE FAULT - Current in C servo motor beyond limit. Possibly caused by a stalled or
overloaded motor. The servos are turned off. This can be caused by running the axis into a mechanical stop.
It can also be caused by a short in the motor or a short of one of the motor leads to ground.
277 C ZERO RET MARGIN TOO SMALL - This alarm will occur if the home/limit switches move or are
misadjusted. This alarm indicates that the zero return position may not be consistent from one zero return to
the next. The encoder Z channel signal must occur between 1/8 and 7/8 revolution of where the home switch
releases. This will not turn the servos off, but will stop the zero return operation.
278 C CABLE FAULT - Cable from (axis) encoder does not have valid signals, incorrect motor selection,
faulty cable, faulty connections or faulty motor. Check parameters to be sure that the mocon channel and
encoder type parameters are correctly set. Check encoder cable connections at the mocon and motor. Check
Cable. Check motor.
279 (M) X AXIS LINEAR SCALE Z FAULT - Encoder marker pulse count failure. This alarm usually indicates
that the Z Fault encoder has been damaged and encoder position data is unreliable. This can also be caused
by loose scale connectors.
280 (M) Y AXIS LINEAR SCALE Z FAULT - Encoder marker pulse count failure. This alarm usually indicates
that the Z Fault encoder has been damaged and encoder position data is unreliable. This can also be caused
by loose scale connectors.
281 (M) Z AXIS LINEAR SCALE Z FAULT - Encoder marker pulse count failure. This alarm usually indicates
that the Z Fault encoder has been damaged and encoder position data is unreliable. This can also be caused
by loose scale connectors.
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282 (M) A AXIS LINEAR SCALE Z FAULT - Encoder marker pulse count failure. This alarm usually indicates
that the Z Fault encoder has been damaged and encoder position data is unreliable. This can also be caused
by loose encoder connectors.
283 (M) X AXIS LINEAR SCALE Z CH MISSING - Broken wires or encoder contamination. All servos are
turned off. This Z Channel Missing can also be caused by loose scale connectors.
284 (M) Y AXIS LINEAR SCALE Z CH MISSING - Broken wires or encoder contamination. All servos are
turned off. This Z Channel Missing can also be caused by loose encoder connectors.
285 (M) Z AXIS LINEAR SCALE Z CH MISSING - Broken wires or encoder contamination. All servos are
turned off. This Z Channel Missing can also be caused by loose encoder connectors.
286 (M) A AXIS LINEAR SCALE Z CH MISSING - Broken wires or encoder contamination. All servos are
turned off. This Z Channel Missing can also be caused by loose encoder connectors.
287 (M) X AXIS LINEAR SCALE CABLE FAULT - Cable from X-axis scale has no valid differential signals.
288 (M) Y AXIS LINEAR SCALE CABLE FAULT - Cable from Y-axis scale has no valid differential signals.
289 (M) Z AXIS LINEAR SCALE CABLE FAULT - Cable from Z-axis scale has no valid differential signals.
290 (M) A AXIS LINEAR SCALE CABLE FAULT - Cable from A-axis scale has no valid differential signals.
291 (M) LOW AIR VOLUME/PRESSURE DURING ATC - An Automatic Tool Change was not completed due
to insufficient volume or pressure of compressed air. Check air supply line.
292 320V VD/MMPS FAULT - 320V VECTOR DRIVE OR MINI MILL POWER SUPPLY fault has occurred.
This alarm is generated whenever a condition of over voltage, under voltage, short circuit, over temperature,
or shorted regen occurs. This alarm should be followed by another alarm with a detailed explanation of the
power supply condition. Press RESET key to continue. If RESET does not clear all alarms CYCLE POWER
TO CONTINUE!!
293 INVALID CHAMFER OR CORNER ROUNDING DISTANCE IN G01 - Check your geometry.
294 NO END MOVE FOR G01 CHAMFER CORNER ROUNDING - A chamfer or corner-rounding move was
requested in a G01 command, but no end move was commanded. Check your geometry.
295 MOVE ANGLE TOO SMALL IN G01 CORNER ROUNDING - Tangent of half angle is zero. Move Angle
must be greater than 1 degree. Check your geometry.
296 INVALID PLANE SELECTION IN G01 CHAMFER OR CORNER ROUNDING - Chamfer or corner
rounding move and end move must be in the same plane as the beginning move. Check your geometry.
297 (M) ATC SHUTTLE OVERSHOOT - The ATC shuttle failed to stop within the allowable standby position
window during a tool change. Check for a loose drive belt, damaged or overheated motor, sticking or
damaged shuttle standby switch or shuttle mark switch, or burned gear motor control board relay contacts.
Use Tool Changer Restore to recover the ATC, then resume normal operation.
298 (M) ATC DOUBLE ARM OUT OF POSITION - ATC double arm mark switch, or CW/CCW position switch
is in an incorrect state. Check for sticking, misaligned or damaged switches, mechanism binding, damaged
motor, or debris build up. Use Tool Changer Restore to recover the ATC, then resume normal operation.
299 (M) ATC SHUTTLE OUT OF POSITION - The ATC shuttle mark switch is in an incorrect state. Check for
a sticking, misaligned, or damaged switch, mechanism binding, damaged motor, or debris build up. Use Tool
Changer Restore to recover the ATC, then resume normal operation.
301 (L) NORMAL STOP - A program stop was encountered.
302 INVALID R IN G02 OR G03 - R must be greater than or equal to half the distance from start to end with
an accuracy of 0.0010 inches (0.010 mm.). Check your geometry.
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303 (L) INVALID X,B OR Z IN G02 OR G03 - Intersection points in G02 and G03 start and end must have an
accuracy of 0.0010 inches (0.010 mm.). Check your geometry.
303 (M) INVALID X, Y OR Z IN G02 OR G03 - Intersection points in G02 and G03 start and end must have an
accuracy of 0.0010 inches (0.010 mm.). Check your geometry.
304 INVALID I,J OR K IN G02 OR G03 - Radius at start and end must match radius at end of arc with an
accuracy of 0.0010 inches (0.010 mm.). Check your geometry.
305 INVALID Q IN CANNED CYCLE - Q variable in a canned cycle cannot be zero. Check your program.
306 INVALID I,J,K, OR Q IN CANNED CYCLE - I, J, K, and Q variables in a canned cycle must be greater
than zero. Check your program.
307 SUBROUTINE NESTING TOO DEEP - Subprogram nesting is limited to twenty levels. Simplify your
program by using fewer subroutines.
308 (L) INVALID TOOL OFFSET - A tool offset not within the range of the control was used.
309 EXCEEDED MAX FEEDRATE - Use a feed rate less than or equal to parameter 59. Check setting 9 for
correct dimensional units, this can be caused by trying to run MM program in INCH.
310 INVALID G CODE - G code not defined and is not a macro call check parameters 91 through 100.
Alias G-code not listed in parameters 91 through 100. To alias a G-code specify program to alias to in the
corresponding parameter.
311 UNKNOWN CODE - Program contained a line or code that is not understood. Check your program.
312 PROGRAM END - End of subroutine reached before M99. Need an M99 to return from subroutine.
Check your sub routine or sub program for M99. Sub routines and sub programs need to have M99 to return
to where they were called from with the M96, M97, M98 or G65.
313 NO P CODE IN M96, M97, M98, M143, M144, or G65 - M96, M97, M98 or G65 must put subprogram
number in P code. P0 for text engraving or P1 for sequential serial number when using G47 text engraving.
314 SUBPROGRAM NOT IN MEMORY - Check that a sub-program called by the P code in M98 or G65 is in
memory. When calling a sub program with FNC the sub program must reside on the same device and in the
same directory as the main program, which calls them. Also, for files that were transferred from USB to hard
drive check the case of the file name on the hard drive, sub programs called must have upper case O and
lower case extensions. For example: O1234.nc.
315 (L) INVALID P CODE IN M97, M98 OR M99 - An invalid P Code has been detected in M97, M98, M99,
M133, M134, or canned cycle G71, G72, G73, or G70. The P code must be the name of a program stored in
memory without a decimal point for M98 and must be a valid N number for all other uses.
315 (M) INVALID P CODE IN M98, M97, M96, G47 OR G65 - P code must be the name of a program stored
in memory without a decimal point for M98 and must be a valid N number for M99. If G47 commanded, then P
must be 0 for text engraving and 1 for sequential serial numbers or ASCII value between 32 and 126.
316 X OVER TRAVEL RANGE - Commanded X-axis move would exceed the machine travel. Machine
coordinates are in negative direction. This indicates either an error in the user’s program or improper offsets.
317 (L) Y OVER TRAVEL RANGE - Commanded Y-axis move would exceed machine travel. Machine
coordinates are in negative direction. This indicates either an error in the user’s program or improper offsets.
317 (M) Y OVER TRAVEL RANGE - Commanded Y-axis move would exceed machine travel. Machine
coordinates are in negative direction. This indicates either an error in the user’s program or improper offsets.
318 Z OVER TRAVEL RANGE - Commanded Z-axis move would exceed the machine travel. Machine
coordinates are in negative direction. This indicates either an error in the user’s program or improper offsets.
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319 A OVER TRAVEL RANGE - Commanded A-axis move would exceed the machine travel. Machine
coordinates are in negative direction. This indicates either an error in the user’s program or improper offsets.
320 NO FEED RATE - Must have an F code commanded for interpolation functions. For G93 inverse time,
there must be an F code on each G01 block. F address is modal and if not previously commanded machine
will not know what feed rate is specified for a G01, G02 or G03 feed block.
321 AUTO OFF ALARM - Occurs in debug mode only.
322 SUB PROG WITHOUT M99 - Add M99 code to end of program called as a subroutine. Check program.
323 (M) ATM CRC ERROR - Advanced Tool Management (ATM) variables lost maybe by low battery. Check
for a low battery and low battery alarm.
324 DELAY TIME RANGE ERROR - P code in G04 is greater than or equal to 1000 seconds (over 999999
milliseconds). This alarm can also be generated by entering an invalid M95 time format.
325 QUEUE FULL - Cycle power on the machine. If the alarm reoccurs, call your dealer and report the
sequence of events that led to the alarm.
326 G04 WITHOUT P CODE - Put a Pn.n for seconds or a Pn for milliseconds.
327 NO LOOP FOR M CODE EXCEPT M97, 98 - L code not required here. Remove L Code.
328 INVALID TOOL NUMBER - Tool number must be between 1 and value in Parameter 65 for tool changer.
329 UNDEFINED M CODE - That M code is not defined and is not a macro call. Check your program.
330 UNDEFINED MACRO CALL - A macro called a program number not in memory, or a macro variable was
accessed by user program but that macro program is not loaded into memory. Check your program.
331 RANGE ERROR - Alphabetic number assignment too large. Check your program.
332 (M) H AND T NOT MATCHED - This alarm is generated when Setting 15 is turned ON. An H code
number in a running program does not match the T number in the spindle. Correct the H codes, select the
right tool, or turn off Setting 15 to run programs don’t have corresponding H and T codes.
333 X AXIS DISABLED - Parameter has disabled this axis.
334 (L) Y AXIS DISABLED - Parameter has disabled Live Tooling.
334 (M) Y AXIS DISABLED - Parameter has disabled this axis.
335 Z AXIS DISABLED - Parameter has disabled this axis.
336 (L) A AXIS DISABLED - An attempt was made to program the A-axis while it was disabled (Disabled bit
in Parameter 43 set to 1).
336 (M) A AXIS DISABLED - Attempt was made to program the A-axis while it was disabled (Disabled bit in
Parameter 43 set to 1), invisible (Invis Axis bit in Parameter 43 set to 1), or a program commanded the A-axis
while it was the outside rotary table (Rotary Index button feature, Map 4TH Axis bit in Parameter 315 set to 1).
337 GOTO OR P LINE NOT FOUND - Subprogram is not in memory, or P code is incorrect. P Not Found.
Check your program.
338 INVALID IJK AND XYZ IN G02 OR G03 - Intersection points in G02 and G03 start and end must have an
accuracy of 0.0010 inches (0.010 mm.). Check your geometry check plane selection G17, G18 or G19.
339 MULTIPLE CODES - Only one M, X, Y, Z, A, Q etc. allowed in a block. Only one G code from the same
group per block.
340 CUTTER COMP BEGIN WITH G02 OR G03 - Cutter compensation must begin with a linear move.
Check program and turn on cutter compensation on in a G01 block.
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341 CUTTER COMP END WITH G02 OR G03 - Cutter compensation must end with a linear move. Check
program and turn off cutter compensation on in a G01 block.
342 CUTTER COMP PATH TOO SMALL - Geometry not possible to apply specified compensation amount.
Check your geometry use a smaller tool.
343 DISPLAY QUEUE RECORD FULL - Cycle power on the machine. If the alarm reoccurs, call your dealer
and report the sequence of events that led to the alarm.
344 (L) CUTTER COMP WITH G17 & G19 - Cutter compensation G41 or G42 not allowed in planes other
than XY plane (G17).
344 (M) CUTTER COMP WITH G18 & G19 - Cutter compensation G41 or G42 not allowed in planes other
than XY plane (G17).
345 (L) INVALID R VALUE IN M19 OR G105 - R value must be positive.
346 (L) M CODE DISABLED - M80 or M81 was commanded. These commands are allowed only for the
Auto Door feature with Setting 51 Door Hold Override set to ON, parameter 57 Safety Circ disabled (0),
and Parameter 57 Door Stop SP disabled (0). An M17 or M18 was commanded in program restart. These
commands are illegal in program restart.
346 (M) M CODE DISABLED A - M80 or M81 was commanded. These commands are allowed only for the
Auto Door feature with Setting 51 Door Hold Override set to ON, parameter 57 Safety Circ disabled (0),
and Parameter 57 Door Stop SP disabled (0). An M17 or M18 was commanded in program restart. These
commands are illegal in program restart.
348 (L) ILLEGAL SPIRAL MOTION - Linear axis path is too long. For helical motions, the linear path must
not be more than the length of the circular component.
348 (M) MOTION NOT ALLOWED IN G93 MODE - This alarm is generated if the mill is in Inverse Time Feed
mode, and a G12, G13, G70, G71, G72, G150, or any Group 9 motion command is issued.
349 PROG STOP WITHOUT CANCELING CUTTER COMP - A cutter compensation exit move with G40 is
required before a program stop M00, M01, or end of program M30. Check your program to be sure that cutter
compensation ends when path is completed.
350 CUTTER COMP LOOK AHEAD ERROR - There are too many non-movement blocks between motions
when cutter compensation is being used. Remove intervening blocks.
351 INVALID P CODE - In a block with G103, value for P must be between 0 and 15. Check your program.
352 AUX AXIS POWER OFF - Aux C, U, V, or W axis indicate servo off. Check auxiliary axes. Status from
control was Off.
353 (L) AUX AXIS NO HOME - A Zero Ret has not been done yet on the aux axes. Check auxiliary axes.
Status from control was Loss.
353 (M) AUX AXIS NO HOME - A Zero Ret has not been done yet on the aux axes. Check auxiliary axes.
354 AUX AXIS DISCONNECTED - Aux axis not responding. Check auxiliary axes and RS-232 connections.
355 AUX AXIS POSITION MISMATCH - Mismatch between machine and aux axis position. Check aux axes
and interfaces. Make sure no manual inputs occur to aux axes.
356 AUX AXIS TRAVEL LIMIT - Aux axes are attempting to travel past their limits.
357 AUX AXIS DISABLED - Aux axes are disabled.
358 MULTIPLE AUX AXIS - Can only move one auxiliary axis at a time.
359 (M) INVALID I, J OR K IN G12 OR G13 - Check your program for G12 and G13 formatting of variables.
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360 TOOL CHANGER DISABLED - Check Parameter 57 in Mills. Not a normal condition for Lathes.
361 GEAR CHANGER DISABLED - Check Parameter 57 in Mills. Not a normal condition for Lathes.
362 TOOL USAGE ALARM - Tool life limit was reached. To continue, hi-light the usage counter in the current
commands tool life display and press Origin. Then press Reset to clear alarm and continue.
363 COOLANT LOCKED OFF - Setting 32 is set to off when coolant was turned on in programmed M-codes
or by keypad.
364 NO CIRC INTERP AUX AXIS - Only rapid or feed is allowed with aux axes.
365 P DEFINITION ERROR - P value not defined, or P value out of range. An M59 or M69 must have a P
value between the range of 1100 and 1155. If using G154 command, then P value must be between 1 and 99.
Check your program for formatting of the code.
366 (M) MISSING I, K, OR L IN G70, G71, G72 - Check canned cycles for missing values I, K or L.
367 CUTTER COMP INTERFERENCE - Programmed path cannot be computed with tool size. Use a different
size tool or adjust the radius offset.
368 GROOVE TOO SMALL - Tool too big to enter cut. Use a smaller tool.
369 TOOL TOO BIG - Tool too big to enter cut. Use a smaller tool.
370 (L) TAILSTOCK EXCESSIVE DRIFT - The tailstock position has changed even though it has not been
commanded to do so. Check to make sure that the part is not moving back.
370 (M) POCKET DEFINITION ERROR - Check geometry for G150. Check the sub program for path
intersection and main program for starting X and Y. Move the starting location of the tool before the G150.
371 INVALID I, J, K OR Q - Check G150 cycle for missing or incorrect values for I, J, K or Q.
372 TOOL CHANGE IN CANNED CYCLE - Tool change not allowed while canned cycle is active. Cancel
canned cycles with G80 before advancing program to next tool.
373 INVALID CODE IN DNC - A code found in a DNC program could not be interpreted because of DNC
restrictions. Check your program.
374 (L) MISSING XBZA IN G31 OR G36 - G31 skip function requires an axis motion.
374 (M) MISSING XYZA IN G31 OR G36 - G31 skip function requires an axis motion.
375 (M) MISSING Z OR H IN G37 - G37 Automatic tool length measurement function requires H code, Z
value, and tool offset enabled. X, Y, and A values not allowed.
376 NO CUTTER COMP IN SKIP - Skip G31 and G37 functions cannot be used with cutter compensation.
Check your program and move the skip functions to another location.
377 NO SKIP IN GRAPH/SIM - Graphics mode and program restart cannot simulate skip function. Use block
delete in program blocks with skip functions for graphic simulation of tool path containing G31 or probing
routines.
378 SKIP SIGNAL FOUND - Skip signal check code included but skip was found when it was not expected.
379 SKIP SIGNAL NOT FOUND - Skip signal check code included but skip not found when it was expected.
380 X, Y, A OR G49 NOT ALLOWED IN G37 - G37 may only specify Z-axis and must have tool offset
defined. Program the correct tool length compensation when using G37.
381 G43,G44 NOT ALLOWED IN G36 OR G136 - Auto work offset probing must be done without tool offset
active. Check your program.
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382 D CODE REQUIRED IN G35 - A Dnn code is required in G35 in order to store the measured tool
diameter. Check your program.
383 INCH IS NOT SELECTED - G20 Inch mode was specified but settings have selected metric. Change
setting 9.
384 METRIC IS NOT SELECTED - G21 MM mode was specified but settings have selected inches. Change
setting 9.
385 INVALID L, P, OR R CODE IN G10 - G10 was used to changes offsets but L, P, or R code is missing or
invalid. Check your program format.
386 INVALID ADDRESS FORMAT - An alphabetical address was used improperly. Check your program.
387 CUTTER COMP NOT ALLOWED WITH G103 - If block lookahead has been limited, cutter compensation
will not function. Remove the block limit for cutter compensation. Check your program.
388 CUTTER COMP NOT ALLOWED WITH G10 - Coordinates cannot be altered while Cutter Comp is
active. Move the G10 outside of Cutter Compensation enablement.
389 G17, G18, G19 ILLEGAL IN G68 - Planes of rotation cannot be changed while rotation is enabled.
Cancel rotation then select new plane.
390 NO SPINDLE SPEED - Required S code not commanded. Check program for a spindle speed command.
391 FEATURE DISABLED - An attempt was made to use a software feature not enabled by a parameter bit.
If the option was purchased and the parameter bit is 0 enter the unlock code for the option if available. Code
is enclosed in the user manual list of option printout.
392 (L) B AXIS DISABLED - An attempt was made to program the B-axis while it was disabled (Disabled bit
in Parameter 151 set to 1).
392 (M) B AXIS DISABLED - Attempt made to program the B-axis while it was disabled (Disabled bit in
Parameter 151 set to 1), invisible (Invis Axis bit in Parameter 151 set to 1), or program commanded the B-axis
while it was the outside rotary table (Rotary Index button feature, Map 4TH Axis bit in Parameter 315 set to 1).
393 (L) INVALID MOTION IN G84 OR G184 - Rigid Tapping can only be in the Z minus direction. Make sure
that the distance from the initial position to the commanded Z depth is in the minus direction.
393 (M) INVALID MOTION IN G74 OR G84 - Rigid Tapping G74 or G84 can only be in the Z minus direction.
Make sure that the distance from the reference position to the commanded Z depth is in the minus direction.
Check your program for G74 or G84 formatting.
394 (L) B OVER TRAVEL RANGE - Tailstock (B-axis) will exceed stored stroke limits. This is in a negative
direction and is machine zero in the positive direction. It only occurs during the operation of a user’s program.
394 (M) B OVER TRAVEL RANGE - B-axis will exceed stored stroke limits. This is in a negative direction and
is machine zero in the positive direction. It only occurs during the operation of a user’s program.
395 (L) INVALID CODE IN CANNED CYCLE - Any canned cycle requiring a PQ path sequence may not
have an M code in the same block. That is G70, G71, G72, and G73.
395 (M) NO G107 ROTARY AXIS SPECIFIED - For axis substitution, a rotary axis must be specified in order
to perform cylindrical mapping to function. Check your program for G107 formatting and program the linear
axis that is going to be mapped.
396 (L) CONFLICTING AXES - An Incremental and Absolute command cannot be used in the same block of
code. For example, X and U cannot be used in the same block.
396 (M) INVALID G107 ROTARY AXIS SPECIFIED - The rotary axis specified in G107 is not a valid axis,
or has been disabled. G107 requires either A or B axis to be commanded. Check your program for G107
formatting and program the linear axis that is going to be mapped to the rotary.
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397 (L) INVALID D CODE - A D value entered in a Canned Cycle must be a positive value. The D will always
refer to the Depth of cut. Check your program.
397 (M) AUX AXIS IN G93 BLOCK - Auxiliary axis interpolation cannot be commanded in G93 feed mode.
Check your program. An auxiliary axis cannot be programmed to move in a feed mode with any other axis.
398 AUX AXIS SERVO OFF - Aux. axis servo shut off due to a fault.
399 (L) INVALID U CODE - In the context that the U code was used it had an invalid value. Was it positive?
400 SKIP SIGNAL DURING RESTART - A skip signal G-code (G31, G35, G36, G37, G136) was found
during program restart. Graphics mode and program restart cannot simulate skip function. Use block delete in
program blocks with skip functions for graphic simulation of tool path.
401 (L) INVALID TANGENT IN GROUP 1 CORNER ROUNDING - Check your geometry.
401 (M) INVALID TANGENT IN GROUP 1 CORNER ROUNDING OR CHAMFERING - The point or angle
calculated has yielded invalid results in automatic chamfering or corner rounding. This can be for one of
the following: 1.) Tangent of angle was too close to zero. 2.) Cosine of angle was invalid. 3.) Hypotenuse
of calculated right triangle was shorter than side. 4.) Calculated point did not line on arc or line. Check your
program for geometry error and recalculate your coordinates.
402 POSSIBLE CORRUPTED FILE - Parameters being loaded do not match expected parameters. This can
be due to loading an older or newer parameter file than the system binary, or a corrupt file.
403 TOO MANY PROGS - Control memory program storage cannot exceed 500 individual program numbers.
404 RS-232 NO PROG NAME - Program number required in file when sending to CNC. Program must have
a name beginning with the letter “O”. Check program for proper name format. The program number may have
a block number in front of it, if it does, remove the block number and reload the program.
405 RS-232 ILLEGAL PROG NAME - Check files being loaded. Program name must be Onnnn and be at
beginning of a block by itself. Program number must be located in the second program block by itself directly
after the first %. If program number has block number in front of it, remove block number and reload program.
406 RS-232 MISSING CODE - Bad data was received. The program is stored but the bad data is turned into
a comment. Check your program. Check program for ( ?) or message screen for displayed block with error.
407 RS-232 INVALID CODE - The program will be stored but the bad data is turned into a comment. Check
program for comment ( ?) or message screen for displayed block with error.
408 RS-232 NUMBER RANGE ERROR - Check your program. The program will be stored but the bad data is
turned into a comment. Check program for comment ( ?) or message screen for displayed block with error.
409 (L) RS-232 INVALID N CODE - Bad Parameter or Setting data. User was loading settings or parameters
and something was wrong with the data.
409 (M) FILE INVALID N CODE - Positive number must exist after the N character in parameter and setting
files, and the block data cannot be longer than 5 digits.
410 (L) RS-232 INVALID V CODE - Bad Parameter or Setting data. User was loading settings or parameters
and something was wrong with the data.
410 (M) FILE INVALID V CODE - Positive or negative number must exist after the ‘V’ character in the
parameter and setting files, and the block data cannot exceed 10 digits.
411 RS-232 EMPTY PROG - No program number found between % signs in file. Check file for formatting.
412 RS-232 UNEXPECTED END OF INPUT - Program should begin and end with % sign. No text should
follow the second % sign. Check your file.
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413 RS-232 LOAD INSUFFICIENT MEMORY - Program received does not fit into available free memory.
Check the space available in the LIST PROG and possibly delete some programs to free memory space.
414 RS-232 BUFFER OVERFLOW - Computer sending data may not be responding to XOFF. Data sent too
fast to CNC, try slower baud rate and check PC for settings for XOFF.
415 RS-232 OVERRUN - Data sent too fast to CNC. Data sent too fast to CNC, try slower baud rate.
416 RS-232 PARITY ERROR - Data received by CNC has bad parity. Check parity settings, number of data
bits and speed. Check your cable configuration, cable needs to be null modem.
417 RS-232 FRAMING ERROR - Data received was garbled and proper framing bits were not found. One or
more characters of the data will be lost. Check parity settings, number of data bits and speed.
418 RS-232 BREAK - Break condition while receiving. The sending device set the line to a break condition.
This might also be caused by a simple break in the cable.
419 INVALID FUNCTION FOR DNC - A code found on input of a DNC program could not be interpreted.
420 PROGRAM NUMBER MISMATCH - O code in program being loaded to machine memory did not match
O code entered at the keyboard to receive. This is a warning message only and does not stop the transfer.
421 (M) NO VALID POCKETS - Pocket Table is full of dashes.
422 (M) POCKET TABLE ERROR - If the machine has a 50 taper spindle, there must be 2 dashes between
L’s. L’s must be surrounded by dashes. Reorganize tools in changer.
423 (L) SERVO BAR EOB SWITCH POSITION UNKNOWN - Place 12 inch standard bar in charging position
and run G105 Q5 to set End of Bar Switch Position
423 (M) X SCALE/SCREW MISMATCH - Scale-induced correction exceeds one motor revolution.
424 (L) SERVO BAR METRIC UNSUPPORTED - Metric mode unsupported, change Setting 9 to inch.
424 (M) Y SCALE/SCREW MISMATCH - Scale-induced correction exceeds one motor revolution.
425 (L) SERVO BAR LENGTH UNKNOWN - Both the bar length and reference position are unknown.
Unload the bar, Run G105 Q4 followed by G105 Q2 or Q3.
425 (M) Z SCALE/SCREW MISMATCH - Scale-induced correction exceeds one motor revolution.
426 (L) SERVO BAR ILLEGAL CODE G105 - Feed Bar commanded with an illegal code on block. Legal
codes are I, J, K, P, Q, R
426 (M) A SCALE/SCREW MISMATCH - Scale-induced correction exceeds one motor revolution.
427 INTERRUPT OVERRUN - The control detected an interrupt overrun condition. An interrupt occurred
before the previous interrupt was completed. Call your dealer.
428 (L) SERVO BAR SWITCH FAILURE - One of the switches controlling the Servobar failed.
429 DISK DIR INSUFFICIENT MEMORY - CNC memory full when attempt is made to read directory. Check
space available in the LIST PROG and possibly delete or download some programs to free memory space.
430 (L) FILE BEGINNING/END MARKER MISSING - Beginning or ending % sign not found. Check program
for start and end of file characters % format as required.
430 (M) FILE UNEXPECTED END OF INPUT - Ending % sign not found. Check your program. An ASCII EOF
code was found in the input data before program receive was complete. This is a decimal code 26.
431 (L) DISK NO PROG NAME - Need name in programs when receiving All; if not, no way to store them.
431 (M) FILE NO PROG NAME - Program number missing in file when loading.
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432 (L) DISK ILLEGAL PROG NAME - Check files being loaded. Program must be Onnnnn and must be at
the beginning of a block.
432 (M) FILE ILLEGAL PROG NAME - Check files being loaded. Program must be Onnnnn and must be at
the beginning of a block.
433 (L) DISK EMPTY PROG - Check your program. Between % and % there was no program found.
433 (M) FILE EMPTY PROG - Check your program. Between % and % there was no program found.
434 (L) DISK LOAD INSUFFICIENT MEMORY - Program received does not fit. Check the space available in
the List Prog mode and possibly delete some programs.
434 (M) FILE LOAD INSUFFICIENT MEMORY - Program loading into memory does not fit in available space.
Check space available in the LIST PROG mode, download and delete some programs to free memory space.
435 DISK ABORT - Could not read disk. Possible corrupted or unformatted disk, pressing reset during
transmission. Try a known good disk or a new disk formatted FAT file system. Also caused by dirty drive
heads. Use an appropriate cleaning kit.
436 DISK FILE NOT FOUND - Could not find file by that name. File name needs to be entered as it is on
floppy. Possible corrupted or unformatted disk. Try a known good disk or a new disk formatted FAT file
system. Can also caused by dirty drive heads. Use an appropriate cleaning kit. Verify file is on disk.
437 (L) TAILSTOCK UNDERSHOOT - The tailstock did not reach its intended destination point. Check the
value of parameter 293 or check Setting 107 compare it to the actual position of the B axis.
438 (L) TAILSTOCK MOVED WHILE HOLDING PART - The part moved while turning a part. Check Setting
107 and the actual position of the B axis as compared to setting 107.
439 (L) TAILSTOCK FOUND NO PART - During an M21 or G01, the tailstock reached the hold point without
encountering the part.
440 (L) SERVO BAR MAX PARTS REACHED - Job Complete. Reset Current # Parts Run on Servobar
current commands page.
441 (L) SERVO BAR MAX BARS REACHED - Job Complete. Reset Current # Bars Run on Servobar current
commands page.
442 (L) SERVO BAR MAX LENGTH REACHED - Job Complete. Reset Current Length Run on Servobar
current commands page.
443 (L) SERVO BAR ALREADY NESTED - An Illegal G105 Pnnn was found in cutoff subprogram.
444 (M) REGEN ON TOO LONG - The power supply detected a condition in which the Regen stays active
too long. This condition indicates that the incoming AC voltage is too high elevating the DC bus, that the
regen load is open or disconnected, or there is excessive power being dumped by the spindle motor. This can
also be caused by a Decel parameter too high. Check the connections and resistance of the Regen load, the
incoming AC voltage and the value of Parameter 186. Cycle power to continue.
445 (L) SERVO BAR FAULT - Servobar program error.
446 (L) SERVO BAR BAR TOO LONG - Bar that was just loaded is longer than Length of Longest Bar as
displayed on Servobar current commands page. The system was unable to accurately measure it. Remove
the loaded bar and measure its length. In Current Commands, page up to the Servo Bar System Variables.
Make sure variable 3109 Length of Longest Bar has a value which is longer than the length of the bar.
447 (L) SERVO BAR BAR IN WAY - The end of bar switch was depressed and a load or unload bar was
commanded. Remove the bar. Check the function of the switch in diagnostics display. End of Bar Switch input
should normally be 0, then change to 1 when depressed.
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448 (L) SERVO BAR OUT OF BARS - Add more Bars.
450 (L) BAR FEEDER FAULT - This means that discrete input 1030 (BFSPLK) is high. See Parameter 278
bit 20 CK BF Status.
451 (L) BAR FEEDER SPINDLE INTERLOCK - This means that discrete input 1027 (BF FLT) is high. See
parameter 278 bit 21 CK BF SP ILK.
452 (L) SERVO BAR GEARMOTOR TIMEOUT - The motor which loads bars and the push rod did not
complete its motion in the allowed time. Check for jammed bars. There may be problem with the I/O board.
Macro commands can be used for troubleshooting, #1110=1 for mills, and #1108=1 for lathes. The motor
should come on instantly and run until stopped by pressing the reset button.
453 (L) C AXIS ENGAGED - A spindle command was given with the C-axis drive engaged. The C-axis motor
must be disengaged with M155 before a spindle brake or gear change.
454 (L) C AXIS NOT ENGAGED - A command was given to the C-axis without the C-axis engaged. The Caxis drive must be engaged with M154 before commanding the C-axis.
455 (L) G112 BLOCK ENDS W/O CANCEL CUTTER COMP - An X/Y cutter compensation exit move is required before a G113 is issued to cancel the G112 block.
456 (L) PARAMETER CONFLICT - Conflict between two or more of the Axis MOCON Channel parameters.
457 AUX AXIS IS ENABLED - One or more auxiliary axes are enabled. For the macro variables 750 and 751
to work the auxiliary axes must be disabled. Make sure Setting 38 is set to 0.
458 (M) LINEAR SCALES ENABLED WITHOUT MOTIF - Linear scales is enabled on an axis but a MOTIF
card was not detected.
459 (L) APL DOOR FAULT - Door was not completely open while APL was inside CNC, or Parameter 315 bit
5 was set to zero.
460 (L) APL ILLEGAL CODE - Internal software error; call your dealer.
461 (L) APL GRIPPER TIMEOUT - The gripper failed to reach its target position within the allowed time.
462 (L) U OVER TRAVEL RANGE - Commanded U-axis move would exceed allowed machine range.
Coordinates are in the negative direction, and indicates an error in the user’s program or improper offsets.
463 (L) V OVER TRAVEL RANGE - Commanded V-axis move would exceed allowed machine range.
Coordinates are in the negative direction, and indicates an error in the user’s program or improper offsets.
464 (L) W OVER TRAVEL RANGE - Commanded W-axis move would exceed allowed machine range.
Coordinates are in the negative direction, and indicates an error in the user’s program or improper offsets.
468 (L) U LIMIT SWITCH - Axis hit limit switch or switch disconnected. Stored stroke limits should stop slides
before they hit limit switches. Verify value of Parameter 373, Grid Offset and check wiring to the limit switch.
Can also be caused by a loose encoder shaft at the back of the motor or coupling of motor to the screw.
469 (L) V LIMIT SWITCH - Bar feeder hit limit switch or switch disconnected. Stored stroke limits should
stop slides before they hit limit switches. Verify value of Parameter 409, Grid Offset and check wiring to limit
switch. Can also be caused by a loose encoder shaft at back of the motor or coupling of motor to the screw.
470 (L) W LIMIT SWITCH - Axis hit limit switch or switch disconnected. Stored stroke limits should stop slides
before they hit limit switches. Verify value of Parameter 445, Grid Offset and check wiring to the limit switch.
Can also be caused by a loose encoder shaft at the back of the motor or coupling of motor to the screw.
471 (M) OUT OF TOOLS - The life of all tools in the programmed group have expired. Change tools and reset
tool life data in the tool group to continue.
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472 (M) ATM FAULT - Indicates an error related to the Advanced Tool Management feature. ATM software
encountered a group which does not exist. Usually can be fixed by adding the corresponding group.
473 (L) INVALID GEOMETRY - The geometry specified by the G-code parameters is invalid. If using G76 or
G92, either reduce Setting 95 (Thread Chamfer Size) or increase the number of threads.
474 (M) G02 OR G03 NOT ALLOWED WITH G143 - G02 and G03 allowed in G143 mode only if A and B
axes are at machine zero position. Current A and B axes machine positions must be zero. Also, G02 or G03
must not command A or B axis to a non-zero machine position. Verify work offsets for A and B axes are zero.
485 USB RESET OCCURRED - The USB firmware experienced a reset. This can occur if the USB media
is extremely fragmented, or if there are many files in the directory. Try a faster USB. Defragment USB using
Windows disk tools, or use a USB device with fewer files on it. If this problem persists, call your dealer.
486 USB TIMEOUT OCCURRED - The USB firmware experienced a timeout. This can occur if the USB
media is extremely fragmented, or if there are many files in the directory. Try a faster USB. Defragment USB
using Windows disk tools, or a USB device with fewer files on it. If this problem persists, call your dealer.
487 USB DEVICE INAPPROPRIATELY UNMOUNTED - A USB device was removed during a critical
operation. USB devices should not be disengaged during FNC or when the system is utilizing the USB device.
Wait for transfer operation to complete before removing USB key.
501 TOO MANY ASSIGNMENTS IN ONE BLOCK - Only one assignment macro assignment is allowed per
block. Divide assignment blocks into multiple blocks.
502 [ OR = NOT FIRST TERM IN EXPRESSN - An expression element was found where it was not preceded
by [or =, that start expressions. Check your macro program.
503 ILLEGAL MACRO VARIABLE REFERENCE - Macro variable programmed that is not supported by this
control. Use the correct macro variable. Operator manual lists all system variables available for use.
504 UNBALANCED BRACKETS IN EXPRESSION - Unbalanced brackets, [ or ], were found in an
expression. Add or delete a bracket. Check the macro formatting.
505 VALUE STACK ERROR - The macro expression value stack pointer is in error. Cycle power on the
machine. If the alarm reoccurs, call your dealer and report the sequence of events that lead to the alarm.
Check macro formatting.
506 OPERAND STACK ERROR - The macro expression operand stack pointer is in error. Cycle power on
the machine. If the alarm reoccurs, call your dealer and report the sequence of events that lead to the alarm.
Check macro formatting.
507 TOO FEW OPERANDS ON STACK - An expression operand found too few operands on the expression
stack. Cycle power on the machine. If the alarm reoccurs, call your dealer and report the sequence of events
that lead to the alarm. Check macro formatting.
508 DIVISION BY ZERO - A division in a macro expression attempted to divide by zero. Re-configure the
macro expression. Check macro formatting for a calculation or call that is referencing a zero value variable.
509 ILLEGAL MACRO VARIABLE USE - See Operator manual macro section for valid variables.
510 ILLEGAL OPERATOR OR FUNCTION USE - See Operator manual macro section for valid variables.
511 UNBALANCED RIGHT BRACKETS - Number of right brackets not equal to the number of left brackets.
Check macro formatting.
512 ILLEGAL ASSIGNMENT USE - Attempted to write to a read-only macro variable. See Operator manual
macro section for valid variables. Parameter and setting variables are read only.
513 VARIABLE REFERENCE NOT ALLOWED WITH N OR O - Alphabetic addresses N and O are illegal
variables. You cannot declare N#1, etc. See Operator manual macro section for valid variables.
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514 ILLEGAL MACRO ADDRESS REFERENCE - Alphabetic addresses N and O are illegal variables. You
cannot declare N#1, etc. See Operator manual macro section for valid variables.
515 TOO MANY CONDITIONALS IN A BLOCK - Only one conditional expression is allowed in any WHILE or
IF-THEN block. Check macro formatting.
516 ILLEGAL CONDITIONAL OR NO THEN - A conditional expression was found outside of an IF-THEN,
WHILE, or M99 block. Check macro formatting.
517 EXPRSN. NOT ALLOWED WITH N OR O - Alphabetic addresses N and O are illegal variables. You
cannot declare N#1, etc. See Operator manual macro section for valid variables.
518 ILLEGAL MACRO EXPRESSION REFERENCE - Alphabetic addresses N and O are illegal variables.
You cannot declare N#1, etc. See Operator manual macro section for valid variables.
519 TERM EXPECTED - In the evaluation of a macro expression, an operand was expected but not found.
Check macro formatting.
520 OPERATOR EXPECTED - In the evaluation of a macro expression, an operator was expected but not
found. Check macro formatting.
521 ILLEGAL FUNCTIONAL PARAMETER - An illegal value was passed to a function, such as SQRT[ or
ASIN[. Check macro formatting.
522 ILLEGAL ASSIGNMENT VAR OR VALUE - A variable was referenced for writing. The variable
referenced is read only. See Operator manual macro section for valid variables. Parameter and setting
variables are read only.
523 CONDITIONAL REQUIRED PRIOR TO THEN - A THEN was encountered and a conditional statement
was not processed in the same block. Check macro formatting.
524 END FOUND WITH NO MATCHING DO - An END was encountered without encountering a previous
matching DO. DO-END numbers must agree. Check macro formatting.
525 VAR. REF. ILLEGAL DURING MOVEMENT - Variable cannot be read during axis movement.
526 COMMAND FOUND ON DO/END LINE - A G-code command was found on a While-Do or End macro
block. Move the G-code to a separate block.
527 = NOT EXPECTED OR THEN REQUIRED - Only one assignment is allowed per block, or a THEN
statement is missing. Check macro formatting.
528 PARAMETER PRECEDES G65 - On G65 lines, all parameters must follow the G65 G-code. Place
parameters after G65.
529 ILLEGAL G65 PARAMETER - Alphabetic addresses G, L, N, O, and P cannot be used to pass variables.
See Operator manual macro section for valid variables. Select an alternate address.
530 TOO MANY I, J, or K’S IN G65 - Only 10 occurrences of I, J, or K can occur in a G65 subroutine call.
Reduce the I, J, or K count. Check macro formatting.
531 MACRO NESTING TOO DEEP - Only nine levels of macro nesting can occur when using G65. Reduce
the number of nested macro calls.
532 UNKNOWN CODE IN POCKET PATTERN - Macro syntax is not allowed in a pocket pattern subroutine.
Check macro formatting.
533 MACRO VARIABLE UNDEFINED - A conditional expression evaluated to an UNDEFINED value, i.e. #0.
Return True or False. Check macro formatting.
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534 DO OR END ALREADY IN USE - Multiple use of a DO that has not been closed by an END in the same
subroutine. Close condition with END and use another DO number.
535 ILLEGAL DPRNT STATEMENT - A DPRNT statement has been formatted improperly, or DPRNT does
not begin block. Check format of DPRNT statements.
536 COMMAND FOUND ON DPRNT LINE - A G-code was included on a DPRNT block. Make two separate
blocks, only DPRNT statement on block allowed. Check macro formatting.
537 RS-232 ABORT ON DPRNT - While a DPRNT statement was executing, the RS-232 communications
failed. Check to see that PC is ready to receive with port open.
538 MATCHING END NOT FOUND - While-Do statement does not contain a matching “End” statement. Add
the proper “End” statement.
539 ILLEGAL GOTO - Macro statement includes an expression after GOTO that is not valid.
540 MACRO SYNTAX NOT ALLOWED - A section of code was interpreted by the control where macro
statement syntax is not permitted. In lathe controls, PQ sequences describing part geometry cannot use
macro statements in the part path description.
541 MACRO ALARM - This alarm was generated by a macro command in a program.
542 OPERATION NOT AVAILABLE - This operation is not compatible with FNC mode.
600 (L) CODE NOT EXPECTED IN THIS CONTEXT - During program interpretation, the control found code
out of context. This may indicate an invalid address code found in a PQ sequence. It may also indicate faulty
memory hardware or lost memory. Examine the highlighted line for improper G-code.
600 (M) U OVER TRAVEL RANGE - Commanded U-axis move would exceed allowed machine range.
Machine coordinates are in the negative direction. This indicates either an error in the user’s program or
improper offsets.
601 (L) MAXIMUM PQ BLOCKS EXCEEDED - The maximum number of blocks making up a PQ sequence
was exceeded. Currently, no more than 65535 blocks can be between P and Q.
601 (M) V OVER TRAVEL RANGE - Commanded V-axis move would exceed the allowed machine range.
Machine coordinates are in the negative direction. This indicates either an error in the user’s program or
improper offsets.
602 (L) NON-MONOTONOUS PQ BLOCKS IN X - The path defined by PQ was not monotonic in the X-axis.
A monotonic Path is one that does not change direction starting from the first Motion block. The control is
looking for the X-axis to move in a continuous motion from small to big or big to small. You cannot change
direction in the X-axis with out defining the tool path as a type II canned cycle. If this is the case you need to
add a Z-axis reference on the same line as the first X-axis move after the G71.
602 (M) W OVER TRAVEL RANGE - Commanded W-axis move would exceed the allowed machine range.
Machine coordinates are in the negative direction. This indicates either an error in the user’s program or
improper offsets.
603 (L) NON-MONOTONOUS PQ BLOCKS IN Z - The path defined by PQ was not monotonic in the Z-axis.
A monotonic Path is one that does not change direction starting from the first motion block. The control is
looking for the Z-axis to move in a continuous motion from the face of the part towards the chuck or from the
face of the chuck towards the end of the part. You cannot change direction in the Z-axis with out defining the
tool path as a type II canned cycle. If this is the case you need to add a X-axis reference on the same line as
the first Z-axis move after the G71.
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603 (M) U LIMIT SWITCH - Axis hit limit switch or switch disconnected. The stored stroke limits should
stop the slides before they hit the limit switches. Verify the value of Parameter 373, Grid Offset and check
the wiring to the limit switch. Can also be caused by a loose encoder shaft at the back of the motor or the
coupling of the motor to the screw.
604 (L) NON-MONOTONOUS ARC IN PQ BLOCK - A non-monotonic arc was found in a PQ block. This will
occur in PQ blocks within a G71 or G72 if the arc changes its X or Z direction. Increasing the arc radius will
often correct this problem.
604 (M) V LIMIT SWITCH - Axis hit limit switch or switch disconnected. The stored stroke limits should
stop the slides before they hit the limit switches. Verify the value of Parameter 409, Grid Offset and check
the wiring to the limit switch. Can also be caused by a loose encoder shaft at the back of the motor or the
coupling of the motor to the screw.
605 (L) INVALID TOOL NOSE ANGLE - An invalid angle for the cutting tool tip was specified. This will occur
in a G76 block if the A address has a value that is not from 0 to 120°.
605 (M) W LIMIT SWITCH - Axis hit limit switch or switch disconnected. The stored stroke limits should
stop the slides before they hit the limit switches. Verify the value of Parameter 445, Grid Offset and check
the wiring to the limit switch. Can also be caused by a loose encoder shaft at the back of the motor or the
coupling of the motor to the screw.
606 (L) INVALID A CODE - An invalid angle for linear interpolation was specified. This will occur in a G01
block if the A address was congruent to 0 or 180°.
607 (L) INVALID W CODE - In the context that the W code was used it had an invalid value. Was it positive?
608 INVALID Q CODE - Q address code used as a numeric value that was incorrect in the context used. In
M96 Q can reference only bits 0 to 63. Use the appropriate value for Q in the range of 0 to 63.
609 (L) TAILSTOCK RESTRICTED ZONE - This alarm is caused by an axis moving into the tailstock
restricted zone during program execution. To eliminate the problem, change the program to avoid the
restricted zone or change Setting 93 or Setting 94 to adjust the restricted zone. To recover, go to jog mode,
press Reset twice to clear the alarm, then jog away from the restricted zone.
609 (M) U SERVO ERROR TOO LARGE - Too much load or speed on U-axis motor. The difference between
the motor position and the commanded position has exceeded Parameter 362. The motor may also be
stalled, disconnected, or the driver failed. The servos will be turned off and a Reset must be done to restart.
This alarm can be caused by problems with the driver, motor, or the slide being run into the mechanical stops.
610 (L) G71/G72 DOMAIN NESTING EXCEEDED - The number of troughs nested has exceeded the
control limit. Currently, no more than 10 levels of trough can be nested. Refer to the explanation of G71 for a
description of trough nesting.
610 (M) V SERVO ERROR TOO LARGE - Too much load or speed on V-axis motor. The difference between
the motor position and the commanded position has exceeded Parameter 398. The motor may also be
stalled, disconnected, or the driver failed. The servos will be turned off and a Reset must be done to restart.
This alarm can be caused by problems with the driver, motor, or the slide being run into the mechanical stops.
611 (L) G71/G72 TYPE I ALARM - When G71 or G72 is executing and the control detects a problem in
the defined PQ path. It is used to indicate which method of roughing has been selected by the control. It is
generated to help the programmer when debugging G71 or G72 commands. The control often selects Type
I roughing when the programmer has intended to use Type II roughing. To select Type II, add R1 to the G71/
G72 command block (in YASNAC mode), or add a Z-axis reference to the P block (in FANUC mode).
611 (M) W SERVO ERROR TOO LARGE - Too much load or speed on W-axis motor. The difference between
the motor position and the commanded position has exceeded Parameter 434. The motor may also be
stalled, disconnected, or the driver failed. The servos will be turned off and a Reset must be done to restart.
This alarm can be caused by problems with the driver, motor, or the slide being run into the mechanical stops.
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612 (L) G71/G72 TYPE II ALARM - This alarm is similar to Alarm 611, but indicates that the control has
selected Type II roughing.
612 (M) U SERVO OVERLOAD - Excessive load on U-axis motor. This can occur if the load on the motor
over a period of several seconds or even minutes is large enough to exceed the continuous rating of the
motor. The servos will be turned off when this occurs. This can be caused by running into the mechanical
stops or by anything that causes a very high load on the motors.
613 COMMAND NOT ALLOWED IN CUTTER COMPENSATION - At least one command in the highlighted
block cannot be executed while cutter compensation is active. Block Delete characters (‘/’) are not allowed.
Your program must have a G40 and a cutter compensation exit move before these can be commanded.
614 (M) V SERVO OVERLOAD - Excessive load on V-axis motor. This can occur if the load on the motor over
a period of several seconds or even minutes is large enough to exceed the continuous rating of the motor.
The servos will be turned off when this occurs. This can be caused by running into the mechanical stops or by
anything that causes a very high load on the motors.
615 (L) NO INTERSECTION TO OFFSETS IN CC - While cutter comp was in effect, a geometry was
encountered whose compensated paths had no solution given the tool offset used. This can occur when
solving circular geometries. Correct the geometry or change the tool radius.
615 (M) W SERVO OVERLOAD - Excessive load on W-axis motor. This can occur if the load on the motor
over a period of several seconds or even minutes is large enough to exceed the continuous rating of the
motor. The servos will be turned off when this occurs. This can be caused by running into the mechanical
stops or by anything that causes a very high load on the motors.
616 (L) CANNED CYCLE USING P & Q IS ACTIVE - A canned cycle using P & Q is already executing. A
canned cycle cannot be executed by another PQ canned cycle.
616 (M) U-AXIS MOTOR OVERHEAT - Servo motor overheat. Temperature sensor in motor indicates over
150° F (65° C). Can be caused by overload of motor; such as leaving slide at stops for several minutes.
617 (L) MISSING ADDRESS CODE - A canned cycle using P & Q is already executing. A canned cycle
cannot be executed by another PQ canned cycle.
617 (M) V-AXIS MOTOR OVERHEAT - Servo motor overheat. Temperature sensor in motor indicates over
150° F (65° C). Can be caused by overload of motor; such as leaving slide at stops for several minutes.
618 (L) INVALID ADDRESS VALUE - An address code is being used incorrectly; a negative value being used
for an address code that should be positive. Refer to the documentation of the G code that causes the alarm.
618 (M) W-AXIS MOTOR OVERHEAT - Servo motor overheat. Temperature sensor in motor indicates over
150° F (65° C). Can be caused by overload of motor; such as leaving slide at stops for several minutes.
619 (L) STROKE EXCEEDS START POSITION - Stock removal stroke in canned cycle projects past start
position. Change start position.
620 C AXIS DISABLED - Parameters have disabled this axis.
621 C OVER TRAVEL RANGE - C-axis will exceed stored stroke limits. This is a negative direction parameter
and is machine zero in the positive direction. This will only occur during the operation of a user’s program.
622 (L) C AXIS ENGAGEMENT FAILURE - The C-axis failed to engage or disengage in the time specified in
Parameter 572. Either gears are not meshing or the mechanical stop is not set properly. Check the engage
and disengage switches and the mechanical stop. Also, check the grid offset for the C-axis. This alarm can
also be caused by an obstruction or by low air pressure to the actuating piston.
622 (M) TOOL ARM FAULT - This alarm is generated by the tool changer if the arm is not at the Origin
position or the arm motor is already running when a tool change process is started.
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623 (L) INVALID CODE IN G112 - Only G0 to G3 and G17 are used in G112. G113 cancels G112. No
incremental axes are used in G112. G18 cancels G17. G41 and G42 tool nose compensations are permitted.
624 (L) COMMAND NOT ALLOWED IN G14 MODE - G87 and G88 are not supported in G14 mode.
625 (M) CAROUSEL POSITIONING ERROR - Generated by tool changer if conditions are not correct when:
• Carousel or tool arm was started and illegal conditions are present; for example, carousel or arm motor
already running, arm is not at the Origin, tool carousel is not at TC mark, or tool pocket is not locked.
• The tool carousel was in motion and the Tool One Mark was detected, but the current pocket facing the
spindle was not at pocket one, or the current pocket is at pocket one but Tool One Mark is not detected.
626 (M) TOOL POCKET SLIDE ERROR - This alarm is generated by the tool changer if the tool pocket has
not moved to its commanded position (and settled) within the total time allowed by Parameters 306 and 62.
627 (M) ATC ARM MOTION - Generated by the side mount disk type tool changer if the tool arm failed to
move within the time specified by Parameter 309, Arm Start Timeout; if the tool arm failed to move to the designated position (origin, clamp, or unclamp) within the time specified by Parameter 308, Arm Rotate Time; or
the tool pocket failed to move up or down within the time specified by Parameter 306, Pocket Up/Dn Delay.
628 (M) ATC ARM POSITIONING ERROR - This alarm is generated by the tool changer if:
• The arm was being moved from the Origin position to the Clamp position and it coasted past the Motor
Stop point, or could not get to the Clamp point.
• The arm was being moved from the Clamp position to the Unclamp position and it coasted past the
Motor Stop point or could not get to the Unclamp point (same physical point as Clamp).
• The arm was being moved back to the Origin position and it coasted past the Motor Stop point or could
not get to the Origin point.
Defective TRP solenoid valve assembly
629 (L) EXCEEDED MAX FEED PER REV - For G77, reduce diameter of part or change geometry. For G5,
reduce X or Z travel.
629 (M) APC-PIN CLEAR/HOME SWITCH FAULT - A pin clear switch was contacted when all pallets were
at their home positions. The most likely cause is debris on a switch. Check for accumulation of debris on the
pin clear switches and the pallet home switches. Check switches and their electrical wiring for damage. After
correcting the condition run M50 (with P code for the pallet to be loaded) to continue machining.
630 (M) APC-DOOR SW FAULT-SWITCH NOT EQUAL TO SOLENOID - The APC Door Switch indicates the
door is open but the solenoid shows the door has been commanded to close. Either the door failed to close
and is stuck or the switch itself is broken or stuck. The door switch wiring may also have a fault. Check switch
then cable. After correcting the condition, run M50 to continue machining.
631 (M) PALLET NOT CLAMPED - Vertical Mills: APC-Pallet not clamped or home. Do not move X or Y
axes until APC is in safe condition. One pallet is at home but the other is neither clamped nor at home. Locate
the unclamped pallet and return to home if possible. If drive pin is engaged or pallet is partially clamped, go
to the lube/air panel at rear of mill and continuously press both white buttons in center of solenoid air valves
while assistant pulls the pallet off the receiver. After correcting the condition, run M50 to continue machining.
Horizontal Mills: RP-Pallet not clamped. RP pallet change was not completed or the pallet was not clamped
properly when a spindle command was given. After correcting the condition, run M50 to continue machining.
632 (M) APC-UNCLAMP ERROR - The pallet did not unclamp in the amount of time allowed. This can be
caused by a bad air solenoid, a blocked or kinked airline, or a mechanical problem. After correcting the
condition, run M50 to continue machining. VF-APC: Discrete Input “M-Code Finish” or “Pallet Clamp SW”
should change from 1 to zero when pallet is unclamped.
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633 (M) APC-CLAMP ERROR - The pallet did not clamp in the amount of time allowed by Parameter 316.
This alarm is most likely caused by the mill table not being in the correct position. This can be adjusted using
the setting for the X position (#121, #125) as described in the ‘Installation’ section. If the pallet is in the correct
position but not clamped, push the pallet against the hard stop and run M18. If the pallet is clamped, but not
correctly, run M17 to unclamp, push the pallet to the correct position, and run M18 to clamp the pallet. Less
common causes could be that the slip clutch is slipping, the motor is at fault, or an airline is blocked or kinked.
After correcting the condition, run M50 to continue machining.
634 (M) APC-MISLOCATED PALLET - A pallet is not in the proper place on the APC. The pallet must be
pushed back against the hard stop by hand. After correcting the condition, run M50 to continue machining.
635 (M) APC-PAL NUM CONFLICT REC & CH - Pallet Number Conflict Receiver and Pallet Changer: The
pallet number in memory does not agree with the actual pallet in use. Run M50 to reset this variable.
636 (M) APC UNLOAD-SWITCH MISSED PAL 1 - Pallet #1 did not return from the receiver to the APC in the
allowable amount of time. This can be caused by the chain switch block missing the limit switch, or another
mechanical problem, such as clutch slippage. After correcting the condition, run M50 to continue machining.
637 (M) APC UNLOAD-SWITCH MISSED PAL 2 - Pallet #2 did not return from the receiver to the APC in the
allowable amount of time. This can be caused by the chain switch block missing the limit switch, or another
mechanical problem, such as clutch slippage. After correcting the condition, run M50 to continue machining.
638 (M) APC-DOOR NOT OPEN - The automatic door did not open (in the allowable time), or may have
fallen during an APC function. This can be caused by a bad air solenoid, a blocked or kinked airline, or a
mechanical problem. After correcting the condition, run M50 to continue machining.
639 (M) APC-DOOR NOT CLOSED - The automatic door did not close (in the allowable time) when
necessary after an APC function has been performed. This can be caused by a bad air solenoid, a blocked or
kinked airline, or a mechanical problem. After correcting the condition, run M50 to continue machining.
640 (M) APC-MISSING PALLET @ REC - Pallet change sequence halted because receiver switch not
activated. Pallet either unclamped or not on receiver. Ensure pallet is correctly located on receiver (against
hard stop), then run M18 to clamp the pallet. After correcting the condition, run M50 to continue machining.
641 (M) APC-UNKNOWN CHAIN LOCATION - Neither chain location switch is tripped, so the control cannot
locate the chain position. This can occur if a pallet change is interrupted for any reason; such as an alarm or
an E-Stop. To correct this problem, the pallets and chain must be moved back into a recognized position, such
as both pallets home or one pallet home and one on the receiver. The chain position adjustment tool must
be used to rotate the chain into position. The pallets must be pushed into place by hand. After correcting the
condition, run M50 to continue machining.
642 (M) 642 APC-PIN CLEAR SWITCH FAULT - One of the pallet changer pin clear switches was contacted
unexpectedly. The most likely cause is debris on a switch. Also check the pin clear switches for damage and
their electrical wiring for damage. After correcting the condition, run M50 to continue machining.
643 (M) LOW BRAKE OIL A-AXIS - The oil level in the air/oil booster, supplying hydraulic pressure to the
A-axis brake, is low. The booster is located on the front of the machine’s table. Access the booster fill fitting
and add Mobile DTE 24 oil to bring the oil level to the high oil level line marked on the booster. If the alarm
reoccurs within 90 days, contact your Haas Dealer for service.
644 (M) APC-LOW AIR PRESSURE - A low air pressure condition was detected during pallet changer
operation. Check that the air supply is 100 psi, minimum. Check that the air supply line is the correct
diameter. Check that the mill pressure regulator is set to 85 psi. If this alarm continues to occur, check the
entire pressurized air system for any abnormal air leakage.
645 (M) AMPLIFIER GROUND - Amplifier Ground Fault. A ground short was detected in the output of the amplifiers or spindle drive. This can be caused by a short to ground in the motor cables, servo or spindle motors.
Check all cables and servo amplifiers, if the problem persists call your dealer. Cycle Power to Continue!
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646 (M) VAC INPUT PHASE - VAC Input Phase Fault. A phase loss or drop of the frequency in the incoming
AC line was detected. This occurs when the incoming frequency is lower than 45Hz or higher than 65Hz, or a
power brownout. Check your incoming AC line. Cycle Power to Continue!
647 (M) REGEN LOAD SHORTED - A shorted Regen load condition was detected. This is caused by shorted
cables on the regen load or shorted regen load elements. Check the connections, cables and resistance of
your regen load. Cycle Power to Continue!
648 (M) DC BUS SHORTED - A shorted 320VDC bus condition was detected upon power-up. The DC bus
monitor detected an improper charge-up. This can be caused by a shorted capacitor in 320V PS, shorted
cable, shorted servo amplifier or shorted spindle drive. This can also be caused by a low incoming power.
Check the Amplifier. Check the incoming AC lines. Cycle Power to Continue! This is only tested at power-up.
If this fault occurs, it cannot be reset.
649 (M) DC BUS UNDER VOLTAGE - DC Bus Undervoltage. The DC Bus voltage has dropped too low. This
alarm occurs during charge up with low AC lines or after charge up when the bus falls below 100Vdc. Check
the incoming AC lines to ensure nominal levels. If this fault occurs at power-up, it cannot be reset. If this fault
occurs after power-up, it CAN be reset.
650 (M) DC BUS OVER VOLTAGE - DC Bus Overvoltage. The DC bus voltage has been raised too high.
The most common cause is an open Regen load and occurs during motor deceleration. It can also be caused
by incoming AC power too high. Check Regen load connections and resistance. Check incoming AC lines to
ensure nominal levels. Cycle Power to Continue!
651 (M) Z AXIS IS NOT ZEROED - The Z-axis has not been zeroed. In order to continue Tool Change
Recovery, the Z-axis must be zeroed. Once the Z-axis has been zeroed, continue with Tool Change Recovery.
652 U ZERO RET MARGIN TOO SMALL - This alarm will occur if the home/limit switches move or are
misadjusted. This alarm indicates that the zero return position may not be consistent from one zero return to
the next. The encoder Z channel signal must occur between 1/8 and 7/8 revolution of where the home switch
releases. This will not turn the servos off, but will stop the zero return operation.
653 V ZERO RET MARGIN TOO SMALL - This alarm will occur if the home/limit switches move or are
misadjusted. This alarm indicates that the zero return position may not be consistent from one zero return to
the next. The encoder Z channel signal must occur between 1/8 and 7/8 revolution of where the home switch
releases. This will not turn the servos off, but will stop the zero return operation.
654 W ZERO RET MARGIN TOO SMALL - This alarm will occur if the home/limit switches move or are
misadjusted. This alarm indicates that the zero return position may not be consistent from one zero return to
the next. The encoder Z channel signal must occur between 1/8 and 7/8 revolution of where the home switch
releases. This will not turn the servos off, but will stop the zero return operation.
655 (L) MISMATCH AXIS WITH I, K CHAMFERING - I, (K) was commanded as X-axis (Z-axis) in the block
with chamfering.
655 (M) U CABLE FAULT - Cable from (axis) encoder does not have valid signals, incorrect motor selection,
faulty cable, faulty connections or faulty motor. Check parameters to be sure that the mocon channel and
encoder type parameters are correctly set. Check encoder cable connections at the mocon and motor. Check
Cable. Check motor.
656 (L) INVALID I, K, OR R IN G01 - The move distance in the block commanded with chamfering or corner
rounding is less than the chamfering or corner rounding amount.
656 (M) V CABLE FAULT - Cable from (axis) encoder does not have valid signals, incorrect motor selection,
faulty cable, faulty connections or faulty motor. Check parameters to be sure that the mocon channel and
encoder type parameters are correctly set. Check encoder cable connections at the mocon and motor. Check
Cable. Check motor.
657 (L) NOT ONE AXIS MOVE WITH CHAMFERING - Consecutive blocks commanded with chamfering or
corner rounding, for example: G01 Xb Kk G01 Zb Ii. After each chamfering or corner rounding block, there
must be a single move perpendicular to the one with chamfering or corner rounding.
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657 (M) W CABLE FAULT - Cable from (axis) encoder does not have valid signals, incorrect motor selection, faulty cable, faulty connections or faulty motor. Check parameters to be sure that the mocon channel and
encoder type parameters are correctly set. Check encoder cable connections at the mocon and motor. Check
Cable. Check motor.
658 (L) INVALID MOVE AFTER CHAMFERING - The command after the block commanded with chamfering
or corner rounding is either missing or wrong. There must be a move perpendicular to that of the chamfering
or corner rounding block.
658 (M) U PHASING ERROR - Error occurred in phasing initialization of brushless motor. Can be caused by
a bad encoder, or a cabling error.
659 (L) NOT ONE AXIS MOVE WITH CHAMFERING - Consecutive blocks commanded with chamfering or
corner rounding, for example: G01 Xb Kk G01 Zb Ii. After each chamfering or corner rounding block, there
must be a single move perpendicular to the one with chamfering or corner rounding.
659 (M) V PHASING ERROR - Error occurred in phasing initialization of brushless motor. Can be caused by a
bad encoder, or a cabling error.
660 (M) W PHASING ERROR - Error occurred in phasing initialization of brushless motor. Can be caused by
a bad encoder, or a cabling error.
661 (M) U TRANSITION FAULT - Illegal transition of count pulses in U-axis. This alarm usually indicates that
the encoder has been damaged and encoder position data is unreliable. This can also be caused by loose
MOCON or MOTIF PCB connectors.
662 (M) V TRANSITION FAULT - Illegal transition of count pulses in V-axis. This alarm usually indicates that
the encoder has been damaged and encoder position data is unreliable. This can also be caused by loose
MOCON or MOTIF PCB connectors.
663 (M) W TRANSITION FAULT - Illegal transition of count pulses in W-axis. This alarm usually indicates that
the encoder has been damaged and encoder position data is unreliable. This can also be caused by loose
MOCON or MOTIF PCB connectors.
664 U AXIS DISABLED - Parameter has disabled this axis.
665 (L) V AXIS DISABLED - Parameter has disabled bar feeder.
665 (M) V AXIS DISABLED - Parameter has disabled this axis.
666 W AXIS DISABLED - Parameter has disabled this axis.
667 (M) U AXIS LINEAR SCALE Z FAULT - Encoder marker pulse count failure. This alarm usually indicates
that the Z Fault encoder has been damaged and encoder position data is unreliable. This can also be caused
by loose scale connectors.
668 (M) V AXIS LINEAR SCALE Z FAULT - Encoder marker pulse count failure. This alarm usually indicates
that the Z Fault encoder has been damaged and encoder position data is unreliable. This can also be caused
by loose scale connectors.
669 (M) W AXIS LINEAR SCALE Z FAULT - Encoder marker pulse count failure. This alarm usually indicates
that the Z Fault encoder has been damaged and encoder position data is unreliable. This can also be caused
by loose scale connectors.
670 (M) TT or B OVER TRAVEL RANGE - Commanded TT or B-axis move would exceed the allowed
machine range. Machine coordinates are in the negative direction. This condition indicates either an error in
the user’s program or improper offsets.
671 (M) TT or B LIMIT SWITCH - Axis hit limit switch or switch disconnected. The stored stroke limits should
stop the slides before they hit the limit switches. Verify the value of Parameter 481, Grid Offset and check
the wiring to the limit switch. Can also be caused by a loose encoder shaft at the back of the motor or the
coupling of the motor to the screw.
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673 (M) TT or B SERVO ERROR TOO LARGE - Too much load or speed on TT or B-axis motor. Difference
between motor position and commanded position has exceeded Parameter 470. Motor may also be stalled,
disconnected, or the driver failed. The servos will be turned off and a Reset must be done to restart. This
alarm can be caused by problems with the driver, motor, or the slide being run into the mechanical stops.
674 (M) TT or B SERVO OVERLOAD - Excessive load on TT or B-axis motor. This can occur if the load
on the motor over a period of several seconds or even minutes is large enough to exceed the continuous
rating of the motor. The servos will be turned off when this occurs. This can be caused by running into the
mechanical stops or by a very high load on the motors. If this alarm occurs on a machine with a VF-SS type
tool changer, the most likely cause is a tool over 4 pounds not identified as ‘heavy’ in the tool table.
675 (M) TT or B-AXIS MOTOR OVERHEAT - Servo motor overheat. The temperature sensor in the motor
indicates over 150° F. Can be caused by overload of motor; such as leaving slide at stops for several minutes.
676 (M) TT or B MOTOR Z FAULT - Encoder marker pulse count failure. It usually indicates that the encoder
has been damaged and encoder position data is unreliable, or encoder connectors are loose.
677 (M) TT or B AXIS Z CH MISSING - Z Reference signal from encoder was not received as expected. Can
be caused by loose connections, encoder contamination, or parameter error.
678 (M) TT or B AXIS DRIVE FAULT - Current in TT or B servo motor beyond limit. Possibly caused by
a stalled or overloaded motor. The servos are turned off. This can be caused by running the axis into a
mechanical stop, a short in the motor, or a short of one motor lead to ground.
679 (M) TT or B ZERO RET MARGIN TOO SMALL - This alarm will occur if the home/limit switches move or
are misadjusted. This alarm indicates that the zero return position may not be consistent from one zero return
to the next. The encoder Z channel signal must occur between 1/8 and 7/8 revolution of where the home
switch releases. This will not turn the servos off, but will stop the zero return operation.
680 (M) TT or B CABLE FAULT - Cable from TT or B-axis encoder does not have valid differential signals.
681 (M) TT or B PHASING ERROR - Error occurred in phasing initialization of brushless motor. Can be
caused by a bad encoder or a cabling error.
682 (M) TT or B TRANSITION FAULT - Illegal transition of count pulses in B-axis. This alarm usually
indicates that the encoder has been damaged and encoder position data is unreliable. This can also be
caused by loose MOCON or MOTIF connectors.
683 (M) TT or B AXIS DISABLED - Parameter has disabled this axis.
684 (M) TT or B AXIS LINEAR SCALE Z FAULT - Encoder marker pulse count failure. This alarm usually
indicates that the Z Fault encoder has been damaged and encoder position data is unreliable. This can also
be caused by loose scale connectors.
685 (M) V MOTOR Z FAULT - Encoder marker pulse count failure. It usually indicates that encoder has been
damaged and encoder position data is unreliable. This can also be caused by loose encoder connectors.
686 (M) W MOTOR Z FAULT - Encoder marker pulse count failure. It usually indicates that encoder has been
damaged and encoder position data is unreliable. This can also be caused by loose encoder connectors.
687 (M) U MOTOR Z FAULT - Encoder marker pulse count failure. It usually indicates that encoder has been
damaged and encoder position data is unreliable. This can also be caused by loose encoder connectors.
688 (M) U AXIS Z CH MISSING - Z Reference signal from encoder was not received as expected. Can be
caused by loose connections, encoder contamination, or parameter error.
689 (M) V AXIS Z CH MISSING - Z Reference signal from encoder was not received as expected. Can be
caused by loose connections, encoder contamination, or parameter error.
690 (M) W AXIS Z CH MISSING - Z Reference signal from encoder was not received as expected. Can be
caused by loose connections, encoder contamination, or parameter error.
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691 (M) U AXIS DRIVE FAULT - Current in U servo motor beyond limit. Possibly caused by a stalled or
overloaded motor. The servos are turned off. This can be caused by running the axis into a mechanical stop,
a short in the motor, or a short of one motor lead to ground.
692 (M) V AXIS DRIVE FAULT - Current in V servo motor beyond limit. Possibly caused by a stalled or
overloaded motor. The servos are turned off. This can be caused by running the axis into a mechanical stop,
a short in the motor, or a short of one motor lead to ground.
693 (M) W AXIS DRIVE FAULT - Current in W servo motor beyond limit. Possibly caused by a stalled or
overloaded motor. The servos are turned off. This can be caused by running the axis into a mechanical stop,
a short in the motor or a short of one motor lead to ground.
694 (M) ATC SWITCH FAULT - Conflicting switch states detected; such as simultaneous shuttle at spindle
and shuttle at chain, or tool pocket up and down. Check for damaged or sticking switches, damaged wiring, or
debris buildup. Use Tool Changer Restore to recover the ATC, then resume normal operation.
695 (M) ATC DOUBLE-ARM CYLINDER TIME OUT - ATC double arm did not completely extend or retract
within time allowed by Parameter 61. Check for proper spindle orientation, correct alignment of double arm
with chain or spindle, adequate air supply, mechanism binding, air leakage, excessive tool weight, debris build
up, adequate chain tension, correct chain guide strip adjustment, and interference between tool holder set
screw and chain or tool gripper. Use Tool Changer Restore to recover ATC, then resume normal operation.
696 (M) ATC MOTOR TIME OUT - The ATC shuttle motor or double arm motor failed to complete the
commanded movement within the time allowed by Parameter 60. Check for mechanism binding, correct motor
and switch operation, damaged gear motor control board relays, damaged electrical wiring, or blown fuses on
the gear motor control board. Use Tool Changer Restore to recover the ATC, then resume normal operation.
697 (M) ATC MOTOR FAULT - The ATC shuttle motor or double arm motor was on unexpectedly. Use Tool
Changer Restore to recover the ATC, then resume normal operation.
698 (M) ATC PARAMETER ERROR - The ATC type cannot be determined. Check Parameter 278, bit 10,
HS3 HYD TC, or Parameter 209, bit 2, Chain TC, as appropriate for the installed tool changer. Use Tool
Changer Restore to recover the ATC, then resume normal operation.
701 (L) U SERVO ERROR TOO LARGE MOCON2 - Too much load or speed on U-axis motor. Difference
between motor position and commanded position has exceeded Parameter 362. The motor may also be
stalled, disconnected, or the driver failed. The servos will be turned off and a Reset must be done to restart.
This alarm can be caused by problems with the driver, motor, or the slide being run into the mechanical stops.
702 (L) V SERVO ERROR TOO LARGE - Too much load or speed on bar feeder motor. The difference
between motor position and commanded position has exceeded Parameter 398. The motor may also be
stalled, disconnected, or the driver failed. The servos will be turned off and a Reset must be done to restart.
This alarm can be caused by problems with the driver, motor, or the slide being run into the mechanical stops.
703 (L) W SERVO ERROR TOO LARGE MOCON2 - Too much load or speed on W-axis motor. Difference
between motor position and commanded position has exceeded Parameter 434. The motor may also be
stalled, disconnected, or the driver failed. The servos will be turned off and a Reset must be done to restart.
This alarm can be caused by problems with the driver, motor, or the slide being run into the mechanical stops.
704 (L) Sp SERVO ERROR TOO LARGE - Too much load or speed on Sp-axis motor. The difference
between motor position and commanded position has exceeded Parameter 184. The motor may also be
stalled, disconnected, or the driver failed. The servos will be turned off and a Reset must be done to restart.
This alarm can be caused by problems with the driver, motor, or the slide being run into the mechanical stops.
705 (L) Tt SERVO ERROR TOO LARGE MOCON2 - Too much load or speed on Tt-axis motor. Difference
between motor position and commanded position has exceeded Parameter 470. The motor may also be
stalled, disconnected, or the driver failed. The servos will be turned off and a Reset must be done to restart.
This alarm can be caused by problems with the driver, motor, or the slide being run into the mechanical stops.
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706 (L) Ss SERVO ERROR TOO LARGE MOCON2 - Too much load or speed on Ss-axis motor. Difference
between motor position and commanded position has exceeded Parameter 542. The motor may also be
stalled, disconnected, or the driver failed. The servos will be turned off and a Reset must be done to restart.
This alarm can be caused by problems with the driver, motor, or the slide being run into the mechanical stops.
707 (L) J SERVO ERROR TOO LARGE MOCON2 - Too much load or speed on J-channel motor. Difference
between motor position and commanded position has exceeded a parameter. The motor may also be stalled,
disconnected, or the driver failed. The servos will be turned off and a Reset must be done to restart. This
alarm can be caused by problems with the driver, motor, or the slide being run into the mechanical stops.
708 (L) S SERVO ERROR TOO LARGE MOCON2 - Too much load or speed on S-channel motor. Difference
between motor position and commanded position has exceeded a parameter. The motor may also be stalled,
disconnected, or the driver failed. The servos will be turned off and a Reset must be done to restart. This
alarm can be caused by problems with the driver, motor, or the slide being run into the mechanical stops.
711 (L) U SERVO OVERLOAD MOCON2 - Excessive load on U-axis motor. This can occur if the load on the
motor over a period of several seconds or even minutes is large enough to exceed the continuous rating of
the motor. The servos will be turned off when this occurs. This can be caused by running into the mechanical
stops but not much past them. It can also be caused by anything that causes a very high load on the motors.
712 (L) V SERVO OVERLOAD - Excessive load on bar feeder motor. This can occur if the load on the motor
over a period of several seconds or even minutes is large enough to exceed the continuous rating of the
motor. The servos will be turned off when this occurs. This can be caused by running into the mechanical
stops but not much past them. It can also be caused by anything that causes a very high load on the motors.
713 (L) W SERVO OVERLOAD MOCON2 - Excessive load on W-axis motor. This can occur if load on the
motor over a period of several seconds or even minutes is large enough to exceed the continuous rating of
the motor. The servos will be turned off when this occurs. This can be caused by running into the mechanical
stops but not much past them. It can also be caused by anything that causes a very high load on the motors.
714 (L) Sp SERVO OVERLOAD - Excessive load on Sp-axis motor. This can occur if the load on the motor
over a period of several seconds or even minutes is large enough to exceed the continuous rating of the
motor. The servos will be turned off when this occurs. This can be caused by running into the mechanical
stops but not much past them. It can also be caused by anything that causes a very high load on the motors.
715 (L) Tt SERVO OVERLOAD MOCON2 - Excessive load on Tt-axis motor. This can occur if the load on the
motor over a period of several seconds or even minutes is large enough to exceed the continuous rating of
the motor. The servos will be turned off when this occurs. This can be caused by running into the mechanical
stops but not much past them. It can also be caused by anything that causes a very high load on the motors.
716 (L) Ss SERVO OVERLOAD MOCON2 - Excessive load on Ss-axis motor. This can occur if load on the
motor over a period of several seconds or even minutes is large enough to exceed the continuous rating of
the motor. The servos will be turned off when this occurs. This can be caused by running into the mechanical
stops but not much past them. It can also be caused by anything that causes a very high load on the motors.
717 (L) J SERVO OVERLOAD MOCON2 - Excessive load on J-axis motor. This can occur if the load on the
motor over a period of several seconds or even minutes is large enough to exceed the continuous rating of
the motor. The servos will be turned off when this occurs. This can be caused by running into the mechanical
stops but not much past them. It can also be caused by anything that causes a very high load on the motors.
718 (L) S SERVO OVERLOAD MOCON2 - Excessive load on S-axis motor. This can occur if the load on the
motor over a period of several seconds or even minutes is large enough to exceed the continuous rating of
the motor. The servos will be turned off when this occurs. This can be caused by running into the mechanical
stops but not much past them. It can also be caused by anything that causes a very high load on the motors.
721 (L) U-AXIS MOTOR OVERHEAT MOCON2 - Servo motor overheat. Sensor in motor indicates over 150°
F (65° C). Can be caused by motor overload; such as leaving slide at stops for several minutes.
722 (L) V-AXIS MOTOR OVERHEAT - Servo motor overheat. Sensor in motor indicates over 150° F (65° C).
Can be caused by motor overload; such as leaving slide at stops for several minutes.
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723 (L) W-AXIS MOTOR OVERHEAT MOCON2 - Servo motor overheat. Sensor in motor indicates over 150°
F (65° C). Can be caused by motor overload; such as leaving slide at stops for several minutes.
724 (L) Sp MOTOR OVERHEAT - Servo motor overheat. Sensor in motor indicates over 150° F (65° C). Can
be caused by motor overload; such as leaving slide at stops for several minutes.
725 (L) Tt MOTOR OVER HEAT MOCON2 - Servo motor overheat. Sensor in motor indicates over 150° F
(65° C). Can be caused by motor overload; such as leaving slide at stops for several minutes.
726 (L) Ss MOTOR OVER HEAT MOCON2 - Servo motor overheat. Sensor in motor indicates over 150° F
(65° C). Can be caused by motor overload; such as leaving slide at stops for several minutes.
727 (L) J-AXIS MOTOR OVERHEAT MOCON2 - Servo motor overheat. Sensor in motor indicates over 150°
F (65° C). Can be caused by motor overload; such as leaving slide at stops for several minutes.
728 (L) S-AXIS MOTOR OVERHEAT MOCON2 - Servo motor overheat. Sensor in motor indicates over 150°
F (65° C). Can be caused by motor overload; such as leaving slide at stops for several minutes.
731 (L) U MOTOR Z FAULT MOCON2 - Encoder marker pulse count failure. Usually indicates encoder is
damaged and encoder position data is unreliable. This can also be caused by loose encoder connectors.
732 (L) V MOTOR Z FAULT - Encoder marker pulse count failure. Usually indicates encoder is damaged and
encoder position data is unreliable. This can also be caused by loose encoder connectors.
733 (L) W MOTOR Z FAULT MOCON2 - Encoder marker pulse count failure. Usually indicates encoder is
damaged and encoder position data is unreliable. This can also be caused by loose encoder connectors.
734 (L) Sp MOTOR Z FAULT - Encoder marker pulse count failure. Usually indicates encoder is damaged
and encoder position data is unreliable. This can also be caused by loose encoder connectors.
735 (L) Tt MOTOR Z FAULT MOCON2 - Encoder marker pulse count failure. Usually indicates encoder is
damaged and encoder position data is unreliable. This can also be caused by loose encoder connectors.
736 (L) Ss MOTOR Z FAULT MOCON2 - Encoder marker pulse count failure. Usually indicates encoder is
damaged and encoder position data is unreliable. This can also be caused by loose encoder connectors.
737 (L) J MOTOR Z FAULT MOCON2 - Encoder marker pulse count failure. Usually indicates encoder is
damaged and encoder position data is unreliable. This can also be caused by loose encoder connectors.
738 (L) S MOTOR Z FAULT MOCON2 - Encoder marker pulse count failure. Usually indicates encoder is
damaged and encoder position data is unreliable. This can also be caused by loose encoder connectors.
741 (L) U AXIS Z CH MISSING MOCON2 - Z reference signal from encoder was not received as expected.
Can be caused by loose connections, encoder contamination, or parameter error.
742 (L) V AXIS Z CH MISSING - Z reference signal from encoder was not received as expected. Can be
caused by loose connections, encoder contamination, or parameter error.
743 (L) W AXIS Z CH MISSING MOCON2 - Z reference signal from encoder was not received as expected.
Can be caused by loose connections, encoder contamination, or parameter error.
744 (L) Sp AXIS Z CH MISSING - Z reference signal from encoder was not received as expected. Can be
caused by loose connections, encoder contamination, or parameter error.
745 (L) Tt AXIS Z CH MISSING MOCON2 - Z reference signal from encoder was not received as expected.
Can be caused by loose connections, encoder contamination, or parameter error.
746 (L) Ss AXIS Z CH MISSING MOCON2 - Z reference signal from encoder was not received as expected.
Can be caused by loose connections, encoder contamination, or parameter error.
747 (L) J AXIS Z CH MISSING MOCON2 - Z reference signal from encoder was not received as expected.
Can be caused by loose connections, encoder contamination, or parameter error.
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748 (L) S AXIS Z CH MISSING MOCON2 - Z reference signal from encoder was not received as expected.
Can be caused by loose connections, encoder contamination, or parameter error.
751 (L) U AXIS DRIVE FAULT MOCON2 - Current in U servo motor beyond limit. Possibly caused by
a stalled or overloaded motor. The servos are turned off. This can be caused by running the axis into a
mechanical stop. It can also be caused by a short in the motor or a short of one motor lead to ground.
752 (L) V AXIS DRIVE FAULT - Current in bar feeder motor beyond limit. Possibly caused by a stalled or
overloaded motor. The servos are turned off. This can be caused by running the axis into a mechanical stop.
It can also be caused by a short in the motor or a short of one motor lead to ground.
753 (L) W AXIS DRIVE FAULT MOCON2 - Current in W servo motor beyond limit. Possibly caused by
a stalled or overloaded motor. The servos are turned off. This can be caused by running the axis into a
mechanical stop. It can also be caused by a short in the motor or a short of one motor lead to ground.
754 (L) Sp AXIS DRIVE FAULT - Current in Sp servo motor beyond limit. Possibly caused by a stalled or
overloaded motor. The servos are turned off. This can be caused by running the axis into a mechanical stop.
It can also be caused by a short in the motor or a short of one motor lead to ground.
755 (L) Tt AXIS DRIVE FAULT MOCON2 - Current in Tt servo motor beyond limit. Possibly caused by
a stalled or overloaded motor. The servos are turned off. This can be caused by running the axis into a
mechanical stop. It can also be caused by a short in the motor or a short of one motor lead to ground.
756 (L) Ss AXIS DRIVE FAULT MOCON2 - Current in Ss servo motor beyond limit. Possibly caused by
a stalled or overloaded motor. The servos are turned off. This can be caused by running the axis into a
mechanical stop. It can also be caused by a short in the motor or a short of one motor lead to ground.
757 (L) J AXIS DRIVE FAULT MOCON2 - Current in J servo motor beyond limit. Possibly caused by a stalled
or overloaded motor. The servos are turned off. This can be caused by running the axis into a mechanical
stop. It can also be caused by a short in the motor or a short of one motor lead to ground.
758 (L) S AXIS DRIVE FAULT MOCON2 - Current in S servo motor beyond limit. Possibly caused by
a stalled or overloaded motor. The servos are turned off. This can be caused by running the axis into a
mechanical stop. It can also be caused by a short in the motor or a short of one motor lead to ground.
761 (L) U CABLE FAULT MOCON2 - Cable from U-axis encoder does not have valid differential signals.
762 (L) V CABLE FAULT - Cable from bar feeder encoder does not have valid differential signals.
763 (L) W CABLE FAULT MOCON2 - Cable from W-axis encoder does not have valid differential signals.
764 (L) Sp CABLE FAULT - Cable from spindle motor encoder does not have valid differential signals.
765 (L) Tt CABLE FAULT MOCON2 - Cable from Tt-axis encoder does not have valid differential signals.
766 (L) Ss CABLE FAULT MOCON2 - Cable from Ss-axis encoder does not have valid differential signals.
767 (L) J CABLE FAULT MOCON2 - Cable from J-axis encoder does not have valid differential signals.
768 (L) S CABLE FAULT MOCON2 - Cable from S-axis encoder does not have valid differential signals.
771 (L) U PHASING ERROR MOCON2 - Error occurred in phasing initialization of brushless motor. This can
be caused by a bad encoder, or a cabling error.
772 (L) V PHASING ERROR - Error occurred in phasing initialization of brushless motor. This can be caused
by a bad encoder, or a cabling error.
773 (L) W PHASING ERROR MOCON2 - Error occurred in phasing initialization of brushless motor. This can
be caused by a bad encoder, or a cabling error.
774 (L) Sp PHASING ERROR - Error occurred in phasing initialization of brushless motor. This can be
caused by a bad encoder, or a cabling error.
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775 (L) Tt PHASING ERROR MOCON2 - Error occurred in phasing initialization of brushless motor. This can
be caused by a bad encoder, or a cabling error.
776 (L) Ss PHASING ERROR MOCON2 - Error occurred in phasing initialization of brushless motor. This can
be caused by a bad encoder, or a cabling error.
777 (L) J PHASING ERROR MOCON2 - Error occurred in phasing initialization of brushless motor. This can
be caused by a bad encoder, or a cabling error.
778 (L) S PHASING ERROR MOCON2 - Error occurred in phasing initialization of brushless motor. This can
be caused by a bad encoder, or a cabling error.
781 (L) U TRANSITION FAULT MOCON2 - Illegal transitions of count pulses in U-axis. This alarm usually
indicates that the encoder has been damaged and encoder position data is unreliable. This can also be
caused by loose connectors at the MOCON or MOTIF printed circuit board.
782 (L) V TRANSITION FAULT - Illegal transition of count pulses in bar feeder. This alarm usually indicates
that the encoder has been damaged and encoder position data is unreliable. This can also be caused by
loose connectors at the MOCON or MOTIF printed circuit board.
783 (L) W TRANSITION FAULT MOCON2 - Illegal transition of count pulses in W-axis. This alarm usually
indicates that the encoder has been damaged and encoder position data is unreliable. This can also be
caused by loose connectors at the MOCON or MOTIF printed circuit board.
784 (L) SP MOT ENC TRANSITION FAULT - Illegal transition of count pulses in Sp-axis. This alarm usually
indicates that the encoder on the spindle motor has been damaged and encoder position data is unreliable.
This can also be caused by loose connectors at the MOCON or MOTIF printed circuit board.
785 (L) Tt TRANSITION FAULT MOCON2 - Illegal transition of count pulses in Tt-axis. This alarm usually
indicates that the encoder has been damaged and encoder position data is unreliable. This can also be
caused by loose connectors at the MOCON or MOTIF printed circuit board.
786 (L) Ss TRANSITION FAULT MOCON2 - Illegal transition of count pulses in Ss-axis. This alarm usually
indicates that the encoder has been damaged and encoder position data is unreliable. This can also be
caused by loose connectors at the MOCON or MOTIF printed circuit board.
787 (L) J TRANSITION FAULT MOCON2 - Illegal transition of count pulses in J channel. This alarm usually
indicates that the encoder has been damaged and encoder position data is unreliable. This can also be
caused by loose connectors at the MOCON or MOTIF printed circuit board.
788 (L) S TRANSITION FAULT MOCON2 - Illegal transition of count pulses in S channel. This alarm usually
indicates that the encoder has been damaged and encoder position data is unreliable. This can also be
caused by loose connectors at the MOCON or MOTIF printed circuit board.
791 COMM. FAILURE WITH MOCON2 - During self-test of communications between the MOCON2 and main
processor, the main processor does not respond, and one of them is possibly bad. Check cable connections
and boards. This alarm could also be caused by a memory fault, which was detected on the MOCON2.
792 MOCON2 WATCHDOG FAULT - The self-test of the MOCON2 has failed. Call your dealer.
794 (L) LT Zero Ret Margin Too Small - This alarm will occur if the home/limit switches move or are misadjusted. This alarm indicates that the zero return position may not be consistent from one zero return to the
next. The encoder Z channel signal must occur between 1/8 and 7/8 revolution of where the home switch
releases. This will not turn the servos off but will stop the zero return operation.
795 (L) LT Limit Switch - Axis hit limit switch or switch disconnected. Home switch input changed state while
machine was in use. Stored stroke limits should stop the slides before they hit the limit switches. Verify the
value of Parameter 481, Grid Offset, and check the wiring to the limit switch. Can also be caused by a loose
encoder shaft at the back of the motor or coupling of motor to the screw. LT limit switch may need replacement.
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796 (L) SUB SPINDLE NOT TURNING - Status from subspindle drive indicates it is not at speed when
expected. This can also be caused by commanding a feed when the spindle is stopped.
797 (L) SUB SPINDLE ORIENTATION FAULT - Spindle did not orient correctly. During a spindle orientation
function, the spindle rotated but never achieved proper orientation. This can be caused by failure of encoder,
cables, belts, MOCON or vector drive.
799 (M) UNKNOWN MOCON2 ERROR - MOCON2 has reported an alarm to the current software, which was
unable to identify the alarm.
800 (L) P AND Q EXCEEDED MEMORY - Too many blocks were placed between the P and Q blocks for the
G71, G72 or G73. Reduce the amount to correct.
801 (L) NO BLOCK DELETES BETWEEN P AND Q - Block delete is not allowed between the P and Q
blocks of a G71, G72 or G73.
802 NEGATIVE R AND C VALUES NOT ALLOWED - Negative values are not allowed when using the ,C ,R
corner rounds and chamfering.
808 AUTOMATIC PROBE ARM FAULT - Automatic probe arm failed to complete command to extend or
retract. Check for tools or parts in machining area that block motion of probe arm. Check for sufficient air
pressure and volume. Check probe arm mechanism for broken parts, damaged air lines, or broken electrical
connections. After resolving problem, command the probe arm to the home position and continue operation.
809 PROBE ARM SWITCH FAULT - A switch fault was detected in the automatic probe arm system. For
example, the switch signals indicated both switches simultaneously, or one of the switches indicates an
unexpected position. Check the switches and trip flags for damage and the switch wiring for damage. After
resolving the problem, command the probe arm to the home position and continue operation.
810 PROBE ARM CHUCK CONFLICT - There must be no part in the chuck when the automatic probe arm is
lowered (extended). Unclamp the spindle chuck, remove the part and then continue operation.
822 (L) INVALID AUTO DOOR COMMAND - The Auto Door was commanded to open while in the process of
closing or was commanded to close while in the process of opening. This could occur if the Auto Door button
was pressed while an M85 or M86 was in progress, or while the door was closing for M30, or opening for M30
or M00. To continue operation, press reset to clear alarms and avoid pressing the Auto Door button while the
door is moving automatically.
822 (Mill) INVALID AUTO DOOR COMMAND - The Auto Door was commanded to open while in the process
of closing or was commanded to close while in the process of opening. This could occur if the Auto Door button was pressed while an M80 or M81 was in progress, or while the door was closing for M30, or opening for
M30 or M00. To continue operation, press reset to clear alarms and avoid pressing the Auto Door button while
the door is moving automatically.
823(Lathe) SERVO AUTO DOOR STOPPED - The Auto Door did not open or close completely due to an obstruction. The most common causes are an object blocking door motion and chip build up on the door guide
rails. Check for these problems first. A less likely cause is that the door is out of adjustment. Once the cause
of this fault is determined normal operation can continue. Note: this alarm only occurs with M85 and M86, but
not with the door button.
823 (Mill) SERVO AUTO DOOR STOPPED - The Auto Door did not open or close completely due to an obstruction. The most common causes are an object blocking door motion and chip build up on the door guide
rails. Check for these problems first. A less likely cause is that the door is out of adjustment. Once the cause
of this fault is determined normal operation can continue. Note: this alarm only occurs with M80 and M81, but
not with the door button.
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824 (Lathe) SERVO AUTO DOOR OPERATION FAULT - The Auto Door did not open or close completely.
The most probable cause is an obstruction near the door opened or door closed position. Less likely reasons
are that the door or door switch is out of adjustment, or the door is set up incorrectly. If the door is hitting the
hard stop at the opened position, parameter 825 may need adjustment. If the door is hitting the hard stop
at the closed position parameter 211 may need adjustment. Note that an adjustment to parameter 211 may require an equivalent adjustment to parameter 825. Once the cause of this failure is determined normal operation can be resumed. Note: this alarm only occurs with M85 and M86, but not with the door button.
824 (Mill) SERVO AUTO DOOR OPERATION FAULT - The Auto Door did not open or close completely. The
most probable cause is an obstruction near the door opened or door closed position. Less likely reasons are
that the door or door switch is out of adjustment, or the door is set up incorrectly. If the door is hitting the hard
stop at the opened position, parameter 825 may need adjustment. If the door is hitting the hard stop at the
closed position parameter 379 may need adjustment. Note that an adjustment to parameter 379 may require
an equivalent adjustment to parameter 825. Once the cause of this failure is determined normal operation can
be resumed. Note: this alarm only occurs with M80 and M81, but not with the door button
900 A PARAMETER HAS BEEN CHANGED - When the operator alters the value of a parameter, Alarm
900 is added to the alarm history. When the alarm history is displayed, the operator will be able to see the
parameter number and the old value along with the date and time the change was made. Note that this is not
a resetable alarm; it is for information purposes only.
901 PARAMETERS HAVE BEEN LOADED BY DISK - When a file has been loaded from floppy disk, Alarm
901 is added to the alarm history along with the date and time. Note that this is not a resettable alarm; it is for
information purposes only.
902 PARAMETERS HAVE BEEN LOADED BY RS232 - When a file has been loaded from RS-232; Alarm
902 is added to the alarm history along with the date and time. Note that this is not a resettable alarm; it is for
information purposes only.
903 CNC MACHINE POWERED UP - When the machine is powered up, Alarm 903 is added to the alarm
history along with the date and time. Note that this is not a resettable alarm; it is for information purposes only.
904 (M) ATC AXIS VISIBLE - The tool changer axis must be invisible for tool change operations with the HS
tool changers. Set Parameter 462, bit 18, Invis Axis to 1. This will make the tool changer axis invisible and
tool changes will be allowed.
905 (M) NO P CODE IN M14, M15, M36 - In M14, M15, M36 must specify pallet number with P code.
906 (M) INVALID P CODE IN M14, M15, M36 OR M50 - The P code must be the number of a valid pallet
without a decimal point, and must be a valid integer number.
907 (M) APC UNLOAD-SWITCH MISSED PAL 3 - Pallet #3 did not return from the receiver to the APC in
the allowable amount of time. This can be caused by the chain switch block missing the limit switch, or from
another mechanical problem, such as clutch slippage.
908 (M) APC UNLOAD-SWITCH MISSED PAL 4 - Pallet #4 did not return from the receiver to the APC in
the allowable amount of time. This can be caused by the chain switch block missing the limit switch, or from
another mechanical problem, such as clutch slippage.
909 (M) APC-PROGRAM NOT LISTED - No program name in the Pallet Schedule Table for the loaded pallet.
To run a program for the loaded pallet, enter the program name into the Program Name column of the Pallet
Schedule Table for the required pallet, or remove M48 from the subprogram you want to use. Verify that the
program and the pallet are compatible.
910 (M) APC-PROGRAM CONFLICT - The subprogram you are trying to run is not assigned to the
loaded pallet. Another program is assigned to this pallet in the Pallet Schedule Table. Either enter the
required program name into the Program Name column of the Pallet Status Table, or remove M48 from the
subprogram you want to use. Verify that the subprogram and the pallet are compatible.
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911 (M) APC-PAL LOAD/UNLOAD AT ZERO - One or more of the pallets on the APC has a load or unload
position set to zero. This means that the APC set up procedure was incomplete. Establish correct load and
unload positions for all pallets and enter the positions in the appropriate settings. See operator’s manual for
the APC model correct setting numbers.
912 (M) APC-NO P CODE OR Q CODE FOR M46 - M46 must have a P code and a Q code. The P code
must be a line number in the current program. The Q code is the pallet number, if loaded, that causes a jump
to the program line number.
913 (M) APC-NO P CODE OR Q CODE FOR M49 - M49 must have a Q code. The P code is the pallet
number. The Q code is the status to give the pallet.
914 (M) APC-INVALID P CODE - The P code must be the name of a program stored in memory. The program
name must not have a decimal point. Remove any decimal points from the program name.
915 (M) APC-ILLEGAL NESTING G188 or M48 - G188 is only legal in main program. M48 is only legal in a
program listed in the Pallet Schedule Table or a first level subprogram.
916 (M) APC-NEGATIVE PAL PRIORITY INDEX - Software Error; call your dealer.
917 (M) APC-NUMBER OF PALLETS IS ZERO - Parameter 606 must have a value if Parameter 605 is not
zero. Set Parameter 606 to the number of pallets in your FMS system.
918 (M) APC LOAD-SWITCH MISSED PAL 1 - Pallet #1 did not complete its move from the APC to the
receiver in the allowable time. Pallet change sequence was halted because receiver switch was not activated.
Pallet is either unclamped or not on the receiver. Ensure the pallet is correctly located on receiver (against
hard stop), then run M18 to clamp the pallet. After correcting the condition, run M50 to continue machining.
919 (M) APC LOAD-SWITCH MISSED PAL 2 - Pallet #2 did not complete its move from the APC to the
receiver in the allowable time. Pallet change sequence was halted because receiver switch was not activated.
Pallet is either unclamped or not on the receiver. Ensure the pallet is correctly located on receiver (against
hard stop), then run M18 to clamp the pallet. After correcting the condition, run M50 to continue machining.
920 (M) APC LOAD-SWITCH MISSED PAL 3 - Pallet #3 did not complete its move from the APC to the
receiver in the allowable time. Pallet change sequence was halted because receiver switch was not activated.
Pallet is either unclamped or not on the receiver. Ensure the pallet is correctly located on receiver (against
hard stop), then run M18 to clamp the pallet. After correcting the condition, run M50 to continue machining.
921 (M) APC LOAD-SWITCH MISSED PAL 4 - Pallet #4 did not complete its move from the APC to the
receiver in the allowable time. Pallet change sequence was halted because receiver switch was not activated.
Pallet is either unclamped or not on the receiver. Ensure the pallet is correctly located on receiver (against
hard stop), then run M18 to clamp the pallet. After correcting the condition, run M50 to continue machining.
922 (M) APC-TABLE NOT DECLARED - Software calling invalid tables. Software Error; call your dealer.
923 (L) LOW OIL PRESSURE - Oil Pump for platter gear has no pressure. Check that pump is pumping oil
through lines. Check to make sure filter next to pump is not plugged. Parameter 618 determines delay to
check pressure after start.
923 (M) A INDEXER IS NOT AT THE PROPER INCREMENTAL POSITION - The indexer has moved to a
position that cannot be seated.
924 (L) SS LOW LUBE OR LOW PRESSURE - Way lube is low or empty or there is no lube pressure or too
high a pressure. Check tank at rear of machine and below control cabinet. Also check connector on the side
of the control cabinet. Check that the lube lines are not blocked. Parameter 616 determines cycle time.
924 (M) B INDEXER IS NOT AT THE PROPER INCREMENTAL POSITION - The indexer has moved to a
position that cannot be seated.
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925 (M) A INDEXER IS NOT FULLY IN THE UP POSITION - The indexer is still seated. It is not completely
in the up position and cannot be rotated. Reset, then rezero the indexer. The platter lift switch may need
adjustment (See mechanical maintenance manual for details).
926 (M) B INDEXER IS NOT FULLY IN THE UP POSITION - The indexer is still seated. It is not completely in
the up position and cannot be rotated. Reset, then rezero the indexer.
927 (M) ILLEGAL G1 CODE FOR ROTARY INDEXER - The rotary indexer only does rapid G0 motion. Feed
G1 motion is not allowed.
928 (M) Tool Shuttle Not At Home - The tool shuttle mechanism is not at the home position; this is required
before a tool change can be initiated. Press the RECOVER key for more details and to restore the tool
changer to operational state.
929 (M) Tool Shuttle Move Command Error - During a tool change operation an invalid condition occurred
in the software related to the tool shuttle. If this alarm persists, you may need to contact your dealer.
931 (M) Tool Shuttle Move Error - Tool transfer to or from the intermediary staging pocket did not occur within the time specified by parameter 615. Check for any obstructions of the shuttle transfer mechanism. Check
the home switch and wiring, the transfer drive mechanism and belt. After resolving any problems, press the
RECOVER key to bring the shuttle back to the home switch position.
932 (L) BAR 100- ZERO VALUE - You must enter a value for #3100 Part Length + Cutoff, #3102 Min
Clamping Length and #3109 Length of Barstock on the Bar 100 Commands page.
933 (L) BAR 100- MAXIMUM PARTS COMPLETED - Job Completed. To Continue, reset #3103 Max # Parts
and/or #3106 Current # Parts Run on the Bar 100 Commands page.
934 (L) BAR 100- CURRENT BAR FINISHED - Load new bar. Reset alarm and press Cycle Start to continue.
935 (L) BAR 100 FAULT - Bar 100 program error. Cycle power on the machine. If the alarm reoccurs, call
your dealer and report the sequence of events that led to the alarm.
937 INPUT LINE POWER FAULT - Input line power failed. This alarm will be generated whenever incoming
power to machine falls below reference voltage value in Parameter 730 and duration of time in Parameter
731. Cycle the power to continue.
938 LANGUAGES LOADED - Foreign languages were recently loaded into the control.
939 LANGUAGES FAILED TO LOAD - Foreign languages failed to be loaded into the control. Languages
either exceeded total flash memory, or not enough flash memory available. Try deleting a language from disk.
940 (M) SIDE MOUNT CAROUSEL ERROR - This alarm is generated by the tool changer if the carousel
motor is still running when the tool pocket is unlocked and lowered prior to a tool change, if the carousel
does not start to rotate after the allowed time specified by Parameter 60, Turret Start Delay, or does not stop
rotating after the allowed time specified by Parameter 61, Turret Stop Delay.
941 (M) POCKET-TOOL TABLE ERROR - This alarm is generated by the tool changer if the tool specified by
the program is not found in the Pocket Tool table, or the searched pocket is out of range.
942 (M) CAROUSEL POSITION TIMEOUT - This alarm is generated by the tool changer if the tool carousel
has not moved after the allowed time or has not stopped after the allowed time specified by Parameter 60,
Turret Start Delay and Parameter 61, Turret Stop Delay, respectively.
943 (M) UNPROCESSED QUEUE CELL IN TOOL CHANGE - There is an unknown command generated in
the Tool change. Please save your current program to disk and notify your dealer.
944 (M) INDEXER OUT OF POSITION - The A-axis indexer is out of position. Jog A-axis to within 1° of a
clamping position before running a program.
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945 (M) APC-LIFT FRAME DOWN TIMEOUT - The pallet changer was commanded to lower but the down
position switch was not contacted before the timeout period. Check for foreign objects under the lift frame.
Verify there is an adequate supply of air pressure and air volume. Verify that Parameter 320 is correct. Check
air solenoids for sticking and air release ports for clogging. Check pallet down position switch and wiring for
damage, switch connections for positive electrical contact, and the lifting mechanism for proper operation.
After determining the cause and correcting the problem, press Recover to enter pallet changer recovery,
recover the pallet changer, and then continue operation. The H Frame down switch is accessed through an
opening on the side of the W-Axis Torque Tube on EC-400s and EC-500s. Some sheetmetal will need to be
removed to access this switch.
946 (M) APC-PALLET CLAMP TIMEOUT - The pallet in the mill did not clamp in the time allowed. Check for
foreign objects under the pallet and between the pallet and the clamp plate. Verify there is an adequate supply
of air pressure and air volume. Check air solenoids for sticking and air release ports for clogging. Check the
pallet clamped position switch for correct operation, the switch and wiring for damage, and pallet alignment.
Check the pallet clamp mechanism for correct operation. After determining the cause and correcting the
problem, press Tool Changer Restore to enter pallet changer recovery, recover the pallet changer, and then
continue operation. Parameter 317 specifies the pallet clamp timeout period.
947 (M) APC-PALLET UNCLAMP TIMEOUT - The pallet in the mill did not unclamp in the time allowed.
Check for foreign objects between the pallet and the clamp plate. Verify there is an adequate supply of air
pressure and air volume. Check air solenoids for sticking and air release ports for clogging. Check the pallet
clamped position switch for correct operation, the switch and wiring for damage and pallet alignment. Check
the pallet clamp plate for damage or foreign objects. After determining the cause and correcting the problem,
press Tool Changer Restore to enter pallet changer recovery, recover the pallet changer, and continue
operation. Parameter 316 specifies the unclamp timeout period.
948 (M) APC-SOFTWARE ERROR - Fault in pallet changer software. Note the actions that caused this alarm.
Also record the following information: On the control panel, press Param Dgnos key to get the Dgnos screen.
Press Page Up to the PC Inputs page. Record the values of PC State, Alarm ST, and Alarm. If this alarm
recurs regularly, call your dealer.
949 (M) APC-AXIS VISIBLE - The pallet changer axis must be invisible for the pallet changer to operate. Set
the parameter bit Invis Axis to one for the axis that the pallet changer is installed on.
950 (M) APC-ILLEGAL SWITCH CONDITION, LIFT FRAME - The pallet changer lift frame switches indicate
that the pallet changer lift frame is up and down at the same time. Verify an adequate supply of air pressure
and air volume. Check the adjustment of the lift frame position switches and for debris on the switches. Check
switch electrical connections and wiring. This may be a false alarm if the pallet changer was out of position by
90° (+/- 20) when a pallet change was in progress. After correcting the cause, press Tool Changer Restore to
enter pallet changer recovery, recover the pallet changer, and then continue operation.
951 (M) APC-ILLEGAL SWITCH CONDITION, PALLET CLAMP - The pallet changer clamp switches
indicate that the pallet changer is clamped and unclamped at the same time. Check the adjustment of the
pallet clamp switches and for debris on the switches. Check switch electrical connections and wiring. After
correcting the cause, press Tool Changer Restore to enter pallet changer recovery, recover the pallet changer,
and then continue operation.
952 (M) APC-MISLOCATED LIFT FRAME - Pallet changer lift frame is not in expected position. The lift frame
was either down when expected to be up, or up when expected to be down. For example, the lift frame must
be up while rotating, and down when a pallet change starts, before clamping the pallet, before the A-axis or
Z-axis can be jogged, or before starting a program with Cycle Start. If pallet began to lower during rotation,
check lift mechanism for proper operation. If this alarm occurred at start of pallet change or when clamping
the pallet, check for foreign objects or misalignment, preventing frame from lowering all the way. Verify there
is an adequate supply of air pressure and air volume. After correcting the cause, press Tool Changer Restore
to enter pallet changer recovery, recover the pallet changer, and then continue operation.
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953 (M) APC-MISLOCATED PALLET CLAMP - Pallet changer clamp plate is not in the expected position.
The clamp plate must be unclamped while the pallet changer is rotating or before the pallet is lifted. Verify
there is an adequate supply of air pressure and air volume. Check operation of the clamp mechanism air
solenoids. Check the pallet clamped position switch for correct operation, the switch and wiring for damage
and pallet alignment. Check the pallet clamp plate for damage. After correcting the cause, press Tool Changer
Restore to enter pallet changer recovery, recover the pallet changer, and then continue operation.
954 (M) APC-INCOMPLETE PALLET CHANGE - The last pallet change did not complete successfully or
the mill has been initialized. Press Tool Changer Restore to enter pallet changer recovery, recover the pallet
changer, and then continue operation.
955 (M) APC-INVALID PALLET CHANGER TYPE - Parameter 605 has an invalid pallet changer type.
Model
Basic Value
VF APC
2
MDC 500/EC-300
3
EC400/EC400PP/EC500
4
EC630
5
956 (M) APC-LIFT FRAME UP TIMEOUT - The pallet changer was commanded to lift but the up position
switch was not contacted before the timeout period. The primary cause of this alarm is insufficient air pressure
or air volume. Also, verify the pallet is unclamped and there are no obstructing objects. Check pallet up switch
and wiring for damage, switch connections for positive electrical contact, and the lifting mechanism for proper
operation. Verify Parameter 321 is correct. After determining and correcting the problem, press Tool Changer
Restore to enter pallet changer recovery, recover the pallet changer, and then continue operation.
957 (M) APC-SWITCH FAULT - Illegal switch condition detected. The pallet clamp switch did not function
correctly. Use M17 and M18 commands to verify the input switch (input relay 26) changes state when the
pallet clamps and unclamps. Check switch adjustment and check wiring for damage or unplugged connectors.
The polarity of the clamp switch may be wrong. Parameter 734 is used to invert input switch polarity.
958 TOOL OFS WEAR HAS BEEN CHANGED - Whenever the tool wear offsets are changed, alarm 958 will
be added to the alarm history along with the date and time the change was made. This is not an alarm; it is for
information purposes only.
959 (M) NON-INDEXER POSITION - The position commanded for the A-axis incremental indexer is a nonindexer position. The indexer positions are multiples of Parameter 647. Parameter 647 is in thousandths of a
degree. For example, a value of 2500 represents 2.5°.
906 (M) INDEXER SWITCH NOT FOUND IN TIME - The A-axis indexer down switch was not found within the
allowed time specified by Parameter 659.
961 FLOPPY OFFSET NOT FOUND - This alarm is generated because FNC has lost the offset placemark it
needs to correctly advance program. Try to reload program.
962 UNABLE TO RETRIEVE FILE INFORMATION - File functions taking to long to process. Try reloading.
963 UNABLE TO FNC FROM THIS DEVICE - This device may not function from FNC. Change setting 134
the connection-type to an appropriate FNC device and try again. Check the operators manual for devices that
are capable of FNC.
964 TOOL TURRET ROTATE FAULT - The turret did not rotate to the correct location within the time
specified in Parameter 60. Check for obstructions that would prevent the turret from rotating. Check the
operation of the position sensors: slow, position_1, and in_position.
965 TURRET CLAMP/UNCLAMP FAULT - The turret did not clamp within the time specified in Parameter 62,
or unclamp in the time specified in Parameter 63. Check the air supply. Check for obstructions preventing the
turret from clamping. Check the operation of the position sensors: slow, position_1, and in_position.
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967 SKBIF COMMUNICATION FAULT - A communication time out on the serial interface between the main
control and the SKBIF has been detected. Any machine motion in progress at the occurrence of the time out
has been stopped. An attempt is being made to re-establish communications. The communication time out
may cause the pendant keypad and other controls, such as palette scheduling buttons, to become inoperative
and to remain inoperative until the machine is powered down and then powered up.
968 DOOR HOLD OVERRIDE ENGAGED - Whenever Setting 51 is changed to On, Alarm 968 is added
to alarm history along with the date and time of the change. Note that this is not a resettable alarm; it is for
information purposes only.
970 NO AXIS COMMANDED IN FEED CODE - There was an unknown command generated. If help is
needed, please save your current program to disk and notify your dealer.
971 FAILED LOAD - The on board device computer failed to load network drivers. This is from an invalid
network setting. Cycle power. CNC should go into Drivers not Loaded mode, change network settings and
try again. If you continuously get Failed to Load alarms without Drivers not Loaded mode, notify your dealer.
The default network settings can be restored if needed. Press Prgrm Convers during power up, then Press P
Enter, then P5 Enter.
976 PALLET POOL-INVALID PALLET - Requested pallet is not in pallet pool system. To correct problem:
Change the p-code with the M50 command, select a pallet from the PST that is already inside the machine,
go to the ‘Shelf’ column of the PST screen and enter the shelf letter that a pallet is sitting on.
982 ZERO ANGLE MOVE - This is caused by start and end point not coinciding and aligned with IJK. Set end
point to the value of start point for a full circle move, or change end point to increase the angle.
983 (M) VD OVER CURRENT - Vector Drive over current. The Vector Drive has detected excessive current
going to the motor. This can be caused by a stalled spindle, a high spindle load for a short duration, a spindle
speed that is too low during a cut, a miswired spindle motor or a faulty Vector Drive. Check the spindle,
spindle speed and surface speed.
984 (M) VD SHORT CIRCUIT - Shorted motor output. This can be caused by any of the motor leads shorted
to each other or shorted to ground. This can also be caused by a faulty Vector Drive. Check all of the motor
leads and make sure they are properly connected.
985 (M) DC BUS OV CHRG - DC Bus over voltage during charge up. The DC bus monitor detected an
improper charge-up. The DC bus voltage was too high during the 2-second charge up sequence. This can
be caused by the incoming AC voltage being too high or because the main transformer is tapped improperly.
Make sure the incoming line voltage and your main transformer taps are setup properly. This can only happen
at power-up. If this fault occurs, it cannot be reset.
986 CALIBRATION FAILED - The amplifier failed to self-calibrate within 30 sec. This can be caused by a
faulty amplifier or a faulty Mocon.
991 AMPLIFIER OVER TEMPERATURE - The amplifier/vector drive temperature sensor indicates over 90°C
near the power transistors. This can be caused by an extended overload condition of the amplifier/vector
drive, a stopped fan or high room temperature. Verify that the amplifier/vector drive fans are working.
992 AMPLIFIER OVER CURRENT - The amplifier has detected excessive current going to the motor. This
can be caused by a stalled motor, a high motor load for a short duration, a spindle speed that is too low during
a cut, a motor improperly wired or a faulty amplifier. Check the motor, and the programmed spindle speed and
surface speed. Make sure the axis did not hit a hard stop. This can also be caused by a faulty amplifier.
993 AMPLIFIER SHORT CIRCUIT - This can be caused by any of the motor leads shorted to each other or
shorted to the 320V return. This can also be caused by a faulty amplifier. Check all of the motor leads and
make sure they are properly connected. This can also be caused by a faulty amplifier
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994 AMPLIFIER OVERLOAD - The amplifier has detected a high load for an extended period of time. This
can be caused by running the amplifier at more than 100% load for an excessive amount of time. Check the
programmed feeds and spindle speed, and for dull tools. This can also be caused by a faulty amplifier
995 AMPLIFIER CURRENT ERROR TOO LARGE - Amplifier error too large. Difference between actual
current and commanded current in amplifier is too great. This can be caused if MOCON commands more
current than amplifier is capable of. Make sure MOCON is in working condition. This can also be caused by a
faulty amplifier
995 (M) ERROR TOO LARGE - Amplifier error too large. Difference between actual current and commanded
current in amplifier is too great. This can be caused if the MOCON commands more current than the amplifier
is capable of. Make sure the MOCON is in working condition. This can also be caused by a faulty amplifier.
996 (L) TAIL STOCK MUST BE ZERO RETURNED - The hydraulic tail stock has been adjusted to a new
position. The B-axis must be zero returned before the tailstock can be used. Ensure that the correct lock bolt
is securely tightened before pressing the zero return key. It is highly recommended that settings 93 and 94 be
adjusted for the new tailstock position.
997 TOO MANY FILES HAVE BEEN OPENED ON THE CURRENT DEVICE - Device from which a
program is running has reached maximum number of files which can be opened on it. Reduce the number of
subroutines used.
998 A FILE COULD NOT BE OPENED - A file on the current device could not be opened. Check the program
number or name (check case).
Alarms 1000-1999 are user-defined by macro programs.
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PARAMETERS
Parameters are seldom-modified values that change the operation of the machine. These include servo motor
types, gear ratios, speeds, stored stroke limits, ballscrew compensations, motor control delays, and macro
call selections. These are all rarely changed by the user and should be protected from being changed by
the parameter lock setting. If you need to change parameters, contact Haas or your dealer. Parameters are
protected from being changed by Setting 7.
The Settings page lists some parameters that the user may need to change during normal operation. These
are simply called “Settings”. Under normal conditions, the parameter displays should not be modified. A
complete list of the parameters is provided here. Where parameter numbers have different meanings between
lathes and mills, it will be indicated with a (L) or an (M) directly after the parameter number or wording to
which the text pertains. The (L) and (M) will not appear in the parameter numbers on the machine display.
The Page Up, Page Down, up and down cursor keys, and the jog handle can be used to scroll through the
control parameter display screens. The left and right cursor keys scroll through bits in a single parameter.
PARAMETER LIST
1
X SWITCH A
Parameter 1 is a collection of single-bit flags used to turn servo related functions on and off. The left and right cursor
arrows are used to select the function being changed. All values are 0 or 1 only. The function names are:
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
19
20
20
21
21
22
23
180
REV ENCODER - Reverses the direction of encoder data.
REV POWER - Reverses the direction of power to motor.
REV PHASING - Reverses motor phasing.
DISABLED - Disables the X-axis.
Z CH ONLY - With A only, indicates no home switch.
AIR BRAKE - With A only, indicates air brake is used.
DISABLE Z T - Disables encoder Z test (for testing only).
SERVO HIST - Graph of servo error (for diagnostics only).
INV HOME SW - Inverted home switch (NC switch).
INV Z CH - Inverted Z channel (normally high).
CIRC. WRAP. - (M) With A only, causes 360 wrap to return to 0. (L) With A only, causes 360 wrap to return to 0.
When Parameter 498 bit 10, is set to 1, the lathe automatically unwinds the C-axis no more than half a rotation.
When the bit is set to zero, it behaves as if the C-axis had been rotated many times and disengaged. When it is
engaged again, the control zeroes it by unwinding as many times as it was wound.
NO I IN BRAK - With A only, removes I feedback when brake is active.
LOW PASS +1X - Adds 1 term to low pass filter.
LOW PASS +2X - Adds two terms to low pass filter.
OVER TEMP NC - Selects a normally closed overheat sensor in motor.
CABLE TEST - Enables test of encoder signals and cabling.
Z TEST HIST - History plot of Z channel test data.
SCALE FACT/X - If set to 1, the scale ratio is interpreted as divided by X; where X depends on bits SCALE/X
LO and SCALE/X HI.
INVIS AXIS - Creates an invisible axis.
(L) DIAMETER PRG - Sets diameter programming. When set to 1, it interprets inputs as diameter instead of radii.
(M) ALM ON LM SW - Rotary alarms at the limit switch.
(L) TRAVL LIMITS - Travel limits are used.
(M) CK TRAVL LIM A - Rotary travel limits are used. On mills with the Gimbaled Spindle (used on the VR series
mills), A and B axes CK TRAVL LIM must be set to 1.
(L) NO LIMSW ALM - Alarms are not generated at the limit switches.
(M) ROT TRVL LIM - Rotary travel limits are used.
D FILTER X8 - Enables 8 tap FIR filter. Used to eliminate high frequency vibrations (depending on axis motor).
D FILTER X4 - Enables 4-tap FIR filter. Used to eliminate high frequency vibrations (depending on axis motor).
Parameters
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24 TORQUE ONLY - For Haas diagnostic use only.
25 3 EREV/MREV - The 2 EREV/MREV and 3 EREV/MREV bits have two definitions, depending on whether one or
two encoders are present. For single encoder systems, the bits are used to define the ratio between the electrical
rotation of the spindle motor and the mechanical rotation of the motor. For two encoder systems, the definition is
the electrical rotation of the motor to the mechanical rotation of the spindle motor encoder, which includes any
pulley ratio between the motor and the motor encoder.
26 2 EREV/MREV - The 2 EREV/MREV and 3 EREV/MREV bits have two definitions, depending on whether one or
two encoders are present. For single encoder systems, the bits are used to define the ratio between the electrical
rotation of the spindle motor and the mechanical rotation of the motor. For two encoder systems, the definition is
the electrical rotation of the motor to the mechanical rotation of the spindle motor encoder, which includes any
pulley ratio between the motor and the motor encoder.
27 NON MUX PHAS - For Haas diagnostic use only.
28 BRUSH MOTOR - Enables the brushless motor option.
29 (L) ROTARY AXIS - When set to 1, the axis is treated as a rotary axis. Position will be displayed in degrees, and
inputs will be interpreted as angles.
29 (M) LINEAR DISPL - Changes the display from degrees to inches (or millimeters) on the A and B axes.
30 SCALE/X LO - With SCALE/X HI bit, determines the scale factor used in bit SCALE FACT/X.
31 SCALE/X HI - With SCALE/X LO bit, determines the scale factor used in bit SCALE FACT/X. See below:
HI LO
0 0 3
0 1 5
1 0 7
1 1 9
2
X P GAIN
3
X D GAIN
4
X I GAIN
Proportional gain in servo loop.
Derivative gain in servo loop.
Integral gain in servo loop.
5
X RATIO (Steps/Unit)
6
X MAX TRAVEL (Steps)
7
X ACCELERATION
8
X MAX SPEED
9
X MAX ERROR
Number of steps of encoder per unit of travel. Encoder steps supply four (4) times their line count per revolution.
Thus, an 8192 line encoder and 6mm pitch screw give: 8192 x 4 x 25.4 / 6 = 138718 (5 steps per unit inch/mm ratio).
Maximum negative direction of travel from machine zero in encoder steps. Does not apply to A-axis. A 20-inch travel,
8192 line encoder and 6 mm pitch screw give: 20.0 x 138718 = 2774360.
Maximum acceleration of axis in steps per second per second.
Maximum speed for this axis in steps per second.
Maximum error allowed in servo loop before alarm is generated. Units are encoder steps. This is the maximum
allowable error in Hz between commanded speed and actual speed. The purpose of this parameter is to prevent
“motor runaway” in case of phasing reversal or bad parameters. If this parameter is set to 0, it defaults to 1/4 of
Parameter 183, Max Frequency.
10 X FUSE LEVEL
Limits average power to motor. If not set correctly, this parameter can cause an “overload” alarm.
11 (L) X BACK EMF
Back EMF of motor in volts per 1000 rpm times 10. Thus a 63 volt/Krpm motor gives 630.
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181
11 (M) X TORQUE PRELOAD
Torque Preload is a signed number that should be set to a value from 0 to 4095, where 4095 is the maximum motor
torque. It is applied at all times to the servo in the same direction. It is used to compensate, in the vertical direction,
for gravity on a machine with an axis brake instead of a counterbalance. Normally, the brake is released when the
servo motors are activated. When the vertical axis is commanded to move, the brake is released and the servo
motors are activated. This parameter specifies the bias torque compensation for gravity.
12 X STEPS/REVOLUTION
Encoder steps per revolution of motor. An 8192 line encoder gives: 8192 x 4 = 32768
13 X BACKLASH
Backlash correction in encoder steps.
14 X DEAD ZONE
Dead zone correction for driver electronics. Units are 0.0000001 seconds.
15 Y SWITCH A
See Parameter 1 for description.
16 Y P GAIN
See Parameter 2 for description.
17 Y D GAIN
See Parameter 3 for description.
18 Y I GAIN
See Parameter 4 for description.
19 Y RATIO (Steps/Unit)
See Parameter 5 for description.
20 Y MAX TRAVEL (Steps)
See Parameter 6 for description.
21 Y ACCELERATION
See Parameter 7 for description.
22 Y MAX SPEED
See Parameter 8 for description.
23 Y MAX ERROR
See Parameter 9 for description.
24 Y FUSE LEVEL
See Parameter 10 for description.
25 (L) Y BACK EMF
See Parameter 11 for description.
25 (M) Y TORQUE PRELOAD
See Parameter 11 for description.
26 Y STEPS/REVOLUTION
See Parameter 12 for description.
27 Y BACKLASH
See Parameter 13 for description.
28 Y DEAD ZONE
See Parameter 14 for description.
29 Z SWITCH A
See Parameter 1 for description.
182
Parameters
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30 Z P GAIN
See Parameter 2 for description.
31 Z D GAIN
See Parameter 3 for description.
32 Z I GAIN
See Parameter 4 for description.
33 Z RATIO (Steps/Unit)
See Parameter 5 for description.
34 Z MAX TRAVEL (Steps)
See Parameter 6 for description.
35 Z ACCELERATION
See Parameter 7 for description.
36 Z MAX SPEED
See Parameter 8 for description.
37 Z MAX ERROR
See Parameter 9 for description.
38 Z FUSE LEVEL
See Parameter 10 for description.
39 (L) Z BACK EMF
See Parameter 11 for description.
39 (M) Z TORQUE PRELOAD
See Parameter 11 for description.
40 Z STEPS/REVOLUTION
See Parameter 12 for description.
41 Z BACKLASH
See Parameter 13 for description.
42 Z DEAD ZONE
See Parameter 14 for description.
43 A SWITCH A
See Parameter 1 for description and be sure this parameter is set to enable the fourth axis before you try to enable
the fourth axis from settings.
44 A P GAIN
See Parameter 2 for description.
45 A D GAIN
See Parameter 3 for description.
46 A I GAIN
See Parameter 4 for description.
47 (L) A RATIO (Steps/Unit)
See Parameter 5 for description.
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47 (M) A RATIO (Steps/Unit)
Defines number of encoder steps required or one full platter rotation. For example, an HRT 210 with a 90:1 gear ratio,
a final drive ratio of 2:1, and an encoder count of 2000 lines would be: 2000 x 4 x (90 x 2)/360 = 4000 steps
For a brushless HRT 210 with a 90:1 gear ratio, a final drive ratio of 2:1 and an encoder count of 8192 the formula
would be: 8192 x 4 x (90 x 2)/360 = 16384 steps
If, for example, 16384 ended up being 13107.2 (non integer), the user must make sure the single bits SCALE
FACT/X and the combination of SCALE/X LO and SCALE/X HI are turned on in Parameter 43. When the scale
factor/x bit is 1, the scale ratio is interpreted as divide by X; where X depends on SCALE/X LO and SCALE/X HI (see
Parameter 1 for SCALE/X LO and SCALE/X HI values). For example: 8192 x 4 x (72 x 2)/360 = 13107.2
You would then turn on the SCALE FACT/X bit and the SCALE/X LO bit which would give you a factor of 5 thus:
13107.2 x 5 = 65536 encoder steps
48 A MAX TRAVEL (Negative Travel Limit) (Steps)
See Parameter 6 for description. Normally this parameter would not apply to the A axis; however, this parameter is
used on mills with a gimbaled spindle (5-axis mills). On a VR-series mill, this parameter is used to limit the amount of
angular movement of the spindle (A and B axes). The A and B axes are limited in movement to a distance between
negative Max Travel, and positive Tool Change Offset. On 5-axes mills A- and B-axis Rot Trvl Lim must be set to 1,
Max Travel and Tool Change Offset must be calibrated and set correctly.
49 A ACCELERATION
See Parameter 7 for description.
50 A MAX SPEED
See Parameter 8 for description.
51 A MAX ERROR
See Parameter 9 for description.
52 A FUSE LEVEL
See Parameter 10 for description.
53 A BACK EMF
See Parameter 11 for description.
54 A STEPS/REVOLUTION
See Parameter 12 for description.
55 A BACKLASH
See Parameter 13 for description.
56 A DEAD ZONE
See Parameter 14 for description.
Parameters 57 through 128 are used to control other machine dependent functions.
57 COMMON SWITCH 1
Parameter 57 is a collection of general purpose single bit flags used to turn some functions on and off. Left and right
cursor arrows select the function being changed. All values are 0 or 1 only. The function names are:
0
1
2
3
4
5
6
7
8
9
184
REVERSE CRANK DIR - Reverses direction of jog handle.
DISABLE TOOL CHANGER - Disables tool changer operations.
DISABLE GEARBOX - Disables gearbox functions.
POWER OFF AT E-STOP - Stops spindle, then turns the power off at Emergency Stop.
RIGID TAPPING - Indicates hardware option for rigid tap.
REV SPINDLE ENCODER - Reverses sense direction of spindle encoder.
UNUSED
EXACT STOP MODE CHG - Selects exact stop in moves when mode changes.
SAFETY CIRCUIT - Enables safety hardware, if machine is so equipped.
SPINDLE DRV LIN ACCEL - Selects linear deceleration for rigid tapping. 0 is quadratic.
Parameters
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10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
UNUSED
COOLANT SPIGOT - Enables coolant spigot control and display.
OVER TEMP IS N/C - Selects Regen over temp sensor as NC.
UNUSED
NONINV SPINDLE STOP - Non-inverted spindle stopped status.
SPIND. LOAD MONITOR - Spindle load monitor option is enabled.
SPIND. TEMP MONITOR - Spindle temperature monitor option is enabled.
ENABLE ROT & SCALNG - Enables rotation and scaling.
ENABLE DNC - Enables DNC selection from MDI.
ENABLE BKGRND EDIT - Enables Background Edit mode.
ENABLE GROUND FAULT - Enables ground fault detector.
M19 SPINDLE ORIENT. - Makes the P and R codes a protected feature, only enabled with an unlock code. The
unlock code is printed on the parameter listing. If this bit is set to 0, an M19 will orient the spindle to 0 degrees,
regardless of the value of any P or R code in the same block. If it is set to 1, a P code in the block will cause the
spindle to be oriented to the specified angle; such as P180. Alternately, a decimal R code can be used, such as
R180.53. Note that the P and R codes only work on a vector drive machine.
ENABLE MACRO - Enables macro functions.
INVERT SKIP - Invert sense of skip to active low = closed.
HANDLE CURSOR - Enable use of jog handle to move cursor.
NEGATIVE WRK OFFSET - Selects use of work offsets in negative direction.
TRANS OIL LOW PRESS - Enables transmission low oil pressure detection.
QUICK CODE - Enables conversational programming.
OILER ON/OFF - Enables oiler power when servos or spindle is in motion.
INV BUSS PWR FAULT - Inverts sense of over voltage signal. It must be set to zero on machines with a
standard vector drive, and 1 on machines with a Smart Vector Drive or Mini Power Supply.
SPINDLE ENCODER #2 - Enables a second encoder that is mounted on the spindle motor and wired into the
C-axis input of the MOCON. It controls the vector algorithm on a belted machine when the belts slip at high load.
When two encoders are present, the first is mounted on the spindle or output of the transmission, and is wired to
the “spindle” input on the MOCON. Most mills use a single encoder that is mounted on either the spindle
(transmission output) or spindle motor, but always connected to the spindle input on the MOCON.
DOOR STOP SPINDLE - Enables functions to stop spindle and manual operations at door switch.
58 LEAD COMPENS SHIFT
Shift factor when applying lead screw compensation. Lead screw compensation is based on a table of 256 offsets;
each +\-127 encoder steps. A single entry in the table applies over a distance equal to two raised to this parameter
power encoder steps.
59 MAX FEED (Inch/Min)
Maximum feedrate in inches per minute.
60 (L) TURRET IN POS DELAY
Amount of time to delay after the turret rotates to the tool position. This delay allows the turret to settle.
60 (M) TURRET START DELAY
Maximum delay allowed in start of tool turret. Units are milliseconds. After this time, an alarm is generated. On
Horizontal mills with a side-mount tool changer, this parameter is used to specify the time (in milliseconds) allowed
for motor driven motions of the shuttle and arm. If the motion has not completed within the time allowed by this
parameter, Alarm 696, ATC Motor Time Out is generated.
61 (L) TURRET LOCK DELAY
Amount of time to delay after the turret is sensed to be locked. This delay allows for mechanical settling.
61 (M) TURRET STOP DELAY
Maximum delay allowed in motion of tool turret. Units are milliseconds. After this time, an alarm is generated. On
Horizontal mills with a side-mount tool changer, this parameter is used to specify the time (in milliseconds) allowed for
air-pressure driven arm in/arm out moves. If the motion has not completed within the time allowed by this parameter,
Alarm 695, ATC Air Cylinder Time Out is generated.
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62 (L) TURRET UNLK ERRTIME
Maximum delay allowed for tool turret to unlock. Units are milliseconds. After this time, an alarm is generated.
62 (M) SHUTTLE START DELAY
The time (in milliseconds) needed to allow the tool pocket to settle (stop bouncing) after being lowered in preparation
for a tool change.
63 (L) TURRET LOCK ERRTIME
Maximum delay allowed for tool turret to lock. Units are milliseconds. After this time, an alarm is generated.
63 (M) SHUTTLE STOP DELAY
Also used for vertical mills with Side-Mount Tool Changer. Specifies the time allowed (in milliseconds) for the tool arm
motor to stop. If the arm has not stopped after the allowed time, Alarm 627, ATC Arm Position Timeout is generated.
64 Z TOOL CHANGE OFFSET
For turret, displacement from home switch to tool 0.
On Vertical mills: For Z-axis; displacement from home switch to tool change position and machine zero. About 4.6
inches, so for an 8192 line encoder this gives: 4.6 x 138718 = 638103
Alternately used for machines with type 4 servo axis pallet changer. It positions the pallet for a pallet change. For
example, Z-axis travel on the EC-400 is done by moving the pallet, not the column, and therefore will not affect a tool
change. Also, Parameter 64 is generally used during zero return, and that usage is consistent in the EC-400.
65 NUMBER OF TOOLS
Number of tool positions in tool changer. This number must be set to the configuration of the machine. The maximum
number of tool positions is 32, except for Horizontal mills with a side-mount tool changer.
66 SPINDLE ORI DELAY
Maximum delay allowed when orienting spindle. Units are milliseconds. After this time, an alarm is generated.
67 GEAR CHANGE DELAY
Maximum delay allowed when changing gears. Units are milliseconds. After this time, an alarm is generated.
68 (M) DRAW BAR MAX DELAY
Maximum delay allowed when clamping and unclamping tool. Units are milliseconds. After this time, an alarm is
generated.
69 A AIR BRAKE DELAY
Delay provided for air to release from brake on A-axis prior to moving. Units are milliseconds.
70 MIN SPIN DELAY TIME
Minimum delay time (in milliseconds) in program after commanding new spindle speed and before proceeding.
71 (L) SPIN STALL DET DELAY
Time to delay after spindle is started before spindle stall checking is started. Each unit is 1/50 of a second.
71 (M) DRAW BAR OFFSET
Offset provided in motion of Z-axis to accommodate the tool pushing out of the spindle when unclamping. Units are
encoder steps.
72 (L) LIVE TOOL CHNG DLAY
Amount of time (in milli seconds) to wait after commanding the Live Tooling Drive motor to turn at the velocity
specified by parameter 143. This process is required to engage the live tooling motor and tool and is only performed
prior to the first M133 or M134 after a tool change.
72 (M) DRAW BAR Z VEL UNCL
Speed of motion in Z-axis to accommodate tool pushing out of the spindle when unclamping. Units are encoder steps
per second.
73 SP HIGH G/MIN SPEED
Command speed used to rotate spindle motor when orienting spindle in high gear. Units are maximum spindle rpm
divided by 4096. This parameter is not used in machines equipped with a Haas vector drive.
186
Parameters
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74 SP LOW G/MIN SPEED
Command speed used to rotate spindle motor when orienting spindle in low gear. Units are maximum spindle rpm
divided by 4096. This parameter is not used in machines equipped with a Haas vector drive.
75 GEAR CHANGE SPEED
Command speed (maximum spindle rpm divided by 4096) used to rotate spindle motor when changing gears.
76 LOW AIR DELAY
Delay allowed after sensing low air pressure before alarm is generated. Alarm skipped if air pressure returns before
delay. Units are 1/50 second.
77 SP LOCK SETTLE TIME
Required time in milliseconds that the spindle lock must be in place and stable before spindle orientation is
considered complete.
78 GEAR CH REV TIME
Time in milliseconds before motor direction is reversed while in a gear change.
79 SPINDLE STEPS/REV
Sets the number of spindle encoder steps per revolution of the spindle. This number takes into account the pulley
ratio between transmission and spindle, plus transmission and encoder. If there are 2 encoders employed, this
number applies to the encoder on the spindle (connected to the SP input of the mocon). If only 1 encoder is
employed, it will be for that encoder. In most installations, the single encoder will be mounted on the motor but will still
connect to the SP input of the mocon.
80 MAX SPIN DELAY TIME
Maximum delay time (in milliseconds) control will wait for spindle to get to commanded speed or to get to zero speed.
81 M MACRO CALL O9000
M code that will call O9000. This parameter can contain a value from 1 through 98, inclusive. Zero causes no call;
however, it is best to use a value that is not already in use (see current M code list). When using M37, the value 37
would be entered in Parameter 81 (for example). A program would be written to include the M37:
G X0...
M37
.
.
M30
The control would run the program until it got to the M37, call program O9000, run that, return to the point that it left,
and continue the main program. Be aware that, if program O9000 contains another M37, it will call itself, keep calling
until it fills the stack (9 times), and then alarm out with 307, Subroutine Nesting Too Deep. Note that if M33 (for
example) is used, it would override the normal M33 Conveyor Stop function.
82 M MACRO CALL O9001
See Parameter 81 for description.
83 M MACRO CALL O9002
See Parameter 81 for description.
84 M MACRO CALL O9003
See Parameter 81 for description.
85 M MACRO CALL O9004
See Parameter 81 for description.
86 M MACRO CALL O9005
See Parameter 81 for description.
87 M MACRO CALL O9006
See Parameter 81 for description.
88 M MACRO CALL O9007
See Parameter 81 for description.
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Parameters
187
89 M MACRO CALL O9008
See Parameter 81 for description.
90 M MACRO CALL O9009
See Parameter 81 for description.
91 G MACRO CALL O9010
G code that calls O9010, and can contain a value from 1 through 98, inclusive. Zero causes no call; however, it is
best to use a value that is not already in use (see current G code list). When using G45, the value 45 would be
entered in Parameter 91 (for example).
A program would be written to include the G45:
G X0...
G45
.
.
M30
The control would run the program until it got to the G45, call program O9010, run that, return to the point that it left,
and continue the main program. If program O9010 contains another G45, it will call itself, keep calling until it fills the
stack (4 times), and then alarm out with 531, Macro Nesting Too Deep. Note that if G84 (for example) is used, it
would override the normal G84 Tapping Canned Cycle.
92 G MACRO CALL O9011
See Parameter 91 for description.
93 G MACRO CALL O9012
See Parameter 91 for description.
94 G MACRO CALL O9013
See Parameter 91 for description.
95 G MACRO CALL O9014
See Parameter 91 for description.
96 G MACRO CALL O9015
See Parameter 91 for description.
97 G MACRO CALL O9016
See Parameter 91 for description.
98 G MACRO CALL O9017
See Parameter 91 for description.
99 G MACRO CALL O9018
See Parameter 91 for description.
100 G MACRO CALL O9019
See Parameter 91 for description.
101 X IN POSITION LIMIT
How close the motor must be to the endpoint before any move is considered complete when not in exact stop (G09
or G61). Units are encoder steps. As of mill version 9.06, this parameter does not apply to feeds. This parameter
should be equivalent to .050 inches.
102 Y IN POSITION LIMIT
See Parameter 101 for description.
103 Z IN POSITION LIMIT
See Parameter 101 for description.
104 A IN POSITION LIMIT
See Parameter 101 for description.
188
Parameters
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105 X MAX CURRENT
Fuse level in % of max power to motor. Applies only when motor is stopped.
Corresponds to maximum peak current provided by the amplifier. 4095 = 30A (small amp), 45A (Medium amp), or
60A (large amp).
106 Y MAX CURRENT
See Parameter 105 (M) for description.
107 Z MAX CURRENT
See Parameter 105 (M) for description.
108 A MAX CURRENT
See Parameter 105 (M) for description.
109 X D*D GAIN
Second derivative gain in servo loop.
110 Y D*D GAIN
Second derivative gain in servo loop.
111 Z D*D GAIN
Second derivative gain in servo loop.
112 A D*D GAIN
Second derivative gain in servo loop.
113 X ACC/DEC T CONST
Acceleration time constant. Units are 1/10000 seconds. This parameter provides for a constant ratio between
profiling lag and servo velocity at the endpoint of a rapid motion.
114 Y ACC/DEC T CONST
See Parameter 113 for description.
115 Z ACC/DEC T CONST
See Parameter 113 for description.
116 A ACC/DEC T CONST
See Parameter 113 for description.
117 LUB CYCLE TIME
If this is set nonzero, it is the cycle time for the lube pump. The Lube pressure switch option is checked for cycling
in this time. It is in units of 1/50 second.
118 SPINDLE REV TIME
Time in milliseconds to reverse spindle motor.
119 SPINDLE DECEL DELAY
Time in milliseconds to decelerate spindle motor.
120 SPINDLE ACC/DECEL
Accel/decel time constant in 200ths of a step/ms/ms for spindle motor.
121 X PHASE OFFSET
The motor phase offset for X motor. This is arbitrary units.
122 Y PHASE OFFSET
The motor phase offset for Y motor. This is arbitrary units.
123 Z PHASE OFFSET
The motor phase offset for Z motor. This is arbitrary units.
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Parameters
189
124 A PHASE OFFSET
The motor phase offset for A motor. This is arbitrary units.
125 X GRID OFFSET
Shifts the effective position of the encoder Z pulse. It can correct for a motor or home switch positioning error.
126 Y GRID OFFSET
See Parameter 125 for description.
127 Z GRID OFFSET
See Parameter 125 for description.
128 A GRID OFFSET
See Parameter 125 for description.
129 GEAR CH SETTLE TIME
Gear change settle time. This is the number of one millisecond samples that the gear status must be stable before
considered in gear.
130 GEAR STROKE DELAY
Controls the delay time to the gear change solenoids when performing a gear change.
131 MAX SPINDLE RPM
Maximum rpm available to the spindle. When this speed is programmed, the D-to-A output will be +10V and the
spindle drive must be calibrated to provide this.
132 Y SCREW COMP. COEF.
Coefficient of heating of the ballscrew, and is used to decrease or shorten the screw length.
133 Z SCREW COMP. COEF.
Coefficient of heating of the ballscrew, and is used to decrease or shorten the screw length.
134
135
136
137
X EXACT STOP DIST.
Y EXACT STOP DIST.
Z EXACT STOP DIST.
A EXACT STOP DIST.
Control how close each axis must be to its end point when exact stop is programmed. They apply in G09 and G64.
They are in units of encoder steps. A value of 34 would give 34/138718 = 0.00025 inch.
NOTE: To change the values of parameters 134-137 permanently, the machine must be rebooted.
138
139
140
141
X FRICTION COMPENSAT.
Y FRICTION COMPENSAT.
Z FRICTION COMPENSAT.
A FRICTION COMPENSAT.
Compensate for friction on each of the four axes. The units are in 0.004V.
142 HIGH/LOW GEAR CHANG
Sets the spindle speed at which an automatic gear change is performed. Below this parameter, low gear is the
default; above this, high gear is the default.
143 (L) LIVE TOOL CHNG VEL
Velocity to command the Live Tooling Drive motor for the period specified by Parameter 72. This process is
required to engage the live tooling motor and tool, and is only performed prior to the first M133 or M134 after a
tool change.
143 (M) DRAW BAR Z VEL CLMP
Sets the speed of the Z-axis motion that compensates for tool motion during tool clamping. Units are in encoder
steps per second.
190
Parameters
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144 RIG TAP FINISH DIST
Sets the finish tolerance for determining the end point of a rigid tapping operation. Units are encoder counts.
145
146
147
148
X ACCEL FEED FORWARD
Y ACCEL FEED FORWARD
Z ACCEL FEED FORWARD
A ACCEL FEED FORWARD
Set the feed forward gain for the axis servo. They have no units.
149 (M) PRE-CHARGE DELAY
Sets the delay time from precharge to tool release. Units are milliseconds.
150 MAX SP RPM LOW GEAR
Maximum spindle rpm in low gear.
151 B SWITCH A
See Parameter 1 for description.
152 B P GAIN
See Parameter 2 for description.
153 B D GAIN
See Parameter 3 for description.
154 B I GAIN
See Parameter 4 for description.
155 B RATIO (Steps/Unit)
See Parameter 47 for description.
156 B MAX TRAVEL (Steps)
See Parameter 6 for description. Normally this parameter would not apply to the A axis; however, this parameter is
used on mills with a gimbaled spindle (5-axes mills). On a VR-series mill this parameter is used to limit the amount
of angular movement of the spindle (A and B axes). The A and B axes are limited in movement to a distance
between negative Max Travel and positive Tool Change Offset. On 5-axes mills A and B axes Rot Trvl Lim must
be set to 1, Max Travel and Tool Change Offset must be calibrated and set correctly.
157 B ACCELERATION
See Parameter 7 for description.
158 B MAX SPEED
See Parameter 8 for description.
159 B MAX ERROR
See Parameter 9 for description.
160 B FUSE LEVEL
See Parameter 10 for description.
161 B BACK EMF
See Parameter 11 for description.
162 B STEPS/REVOLUTION
See Parameter 12 for description.
163 B BACKLASH
See Parameter 13 for description.
164 B DEAD ZONE
See Parameter 14 for description.
165 B IN POSITION LIMIT
Same definition as Parameter 101.
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Parameters
191
166 B MAX CURRENT
Same definition as Parameter 105.
167 B D*D GAIN
Second derivative gain in servo loop.
168 B ACC/DEC T CONST
Same definition as Parameter 113.
169 B PHASE OFFSET
See Parameter 121 for description.
170 B GRID OFFSET
See Parameter 125 for description.
171 B EXACT STOP DIST.
See Parameter 134 for description.
172 B FRICTION COMPENSAT.
See Parameter 138 for description.
173 B ACCEL FEED FORWARD
Same description as Parameter 145.
174 B SCREW COMP. COEF.
Coefficient of heating of the ballscrew, and is used to decrease or shorten the screw length.
175 B AIR BRAKE DELAY
Delay provided for air to release from brake on B-axis prior to moving. Units are milliseconds.
NOTE: The C-axis parameters (176-200) are used to control the Haas Vector Drive.
Parameter 278 bit Haas Vect Dr must be set to 1 for these parameters to be available.
176 Sp SWITCH A
See Parameter 1 for description.
177 Sp P GAIN
See Parameter 2 for description.
178 Sp D GAIN
See Parameter 3 for description.
179 Sp I GAIN
See Parameter 4 for description.
180 Sp SLIP GAIN
Calculated slip rate depends on two other variables: speed and current. Slip rate = slip gain x (speed/max speed) x
(current/max current). The slip gain value is the value that slip rate would assume at maximum speed, and
maximum current (16.384 =1 Hz).
181 Sp MIN SLIP
Minimum value allowed from the slip rate. From the equation: Slip rate = slip gain x (speed/max speed) x (current/
max current). It can be seen that at a zero speed, the slip rate would become zero; therefore, a minimum value for
slip rate is required (16.384 = 1 Hz).
182 Sp ACCELERATION
Maximum acceleration of axis. The value is the units of encoder steps/second/second at the motor.
183 Sp MAX FREQ
See Parameter 8 for description. Frequency at which the motor will be run when maximum spindle rpm is
commanded. Units: 0.01 Hz (two implied decimal places).
192
Parameters
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184 Sp MAX ERROR
Maximum allowable error (in Hz) between commanded spindle speed and actual speed. If set to zero, it will default
to 1/4 of Parameter 183.
185 Sp FUSE LEVEL
See Parameter 10 for description.
186 Sp DECELERATION
See Parameter 10 for description. Maximum deceleration of axis in encoder steps per second per second.
187 Sp MOT HI GEAR ST/REV
Used when a Vector Drive is installed. It takes on two meanings, depending on how many spindle encoders are
used on the machine. If only one encoder is present, it is the number of encoder steps per mechanical revolution of
the spindle motor when the transmission is in high gear. (On direct drive machines, the encoder is mounted on the
motor, while on others, it is on the spindle or transmission output.) N = (Encoder steps/enc rev)/(Enc pulley ratio X
High Gear Ratio). For machines with a spindle and spindle motor encoder, it is the number of spindle motor
encoder steps per mechanical revolution of the encoder. Its purpose is to specify the resolution of the spindle motor
encoder. This parameter is used in conjunction with Parameter 176 bits 25 and 26, which control the ratio between
the electrical revolution of the motor to the mechanical revolution of the encoder. If a vector drive is not installed,
this parameter is called Steps/Revolution and is not used.
188 Sp ORIENT GAIN
Proportional gain used in the position control loop when performing a spindle orientation.
189 Sp BASE FREQ
Rated frequency of the motor.
190 Sp HI SP CURR LIM
At speeds higher than the base frequency, the maximum current that is applied to the motor must be reduced. This
is done linearly from base frequency to max frequency. This value is the max current at the max frequency.
191 Sp MAX CURRENT
Sets maximum current allowed from the vector drive to the spindle motor: 4095 = max.
192 Sp MAG CURRENT
Magnetization component of the current in the motor, also called the flux or field current.
193 Sp SPIN ORIENT MARGIN
When a spindle orientation is done, if the actual position of the spindle is within this value (plus or minus), the
spindle will be considered locked. Otherwise, the spindle will not be locked.
194 Sp SPINDLE STOP FREQ
Spindle considered stopped (discrete input SP ST*=0) when speed drops below this value. Units are encoder
steps/millisecond.
195 Sp START/STOP DELAY
This delay is used at the start of motion to magnetize the rotor before acceleration starts. When the motor comes to
a stop it remains energized for this amount of time. Units are in milliseconds.
196 Sp ACCEL LIMIT LOAD
Used when a Vector Drive is installed. It is % load limit during acceleration. If load reaches this limit, control slows
down acceleration. If Vector Drive not installed, it is called C-axis Exact Stop Distance, and not used.
197 Sp SWITCH FREQUENCY
Frequency at which the spindle motor windings are switched. Note that there is a hysteresis band around this point,
defined by Parameter 198.
198 Sp SWITCH HYSTERESIS
Defines the + hysteresis band around Parameter 197. For example, if Parameter 197 is 85 Hz, and Parameter198
is 5 Hz, the switching will take place at 90 Hz when the spindle is speeding up, and at 80 Hz when the spindle is
slowing down.
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Parameters
193
199 Sp PRE-SWITCH DELAY
Amount of time allowed for the motor current to drop before winding change contactors are switched.
200 Sp POST-SWITCH DELAY
Amount of time allowed for contactors to stabilize after switch is commanded, before current is applied to motor.
201 X SCREW COMP. COEF.
Coefficient of heating of the ballscrew and is used to shorten the screw length.
205 (M) A SCREW COMP. COEF.
This parameter should be set to 0.
206 (M) SPIGOT POSITIONS
Vertical mills only. Maximum number of spigot positions.
207 (M) SPIGOT TIMEOUT (MS)
Vertical mills only. Maximum timeout allowed for spigot to traverse one spigot location.
208 SPIN. FAN OFF DELAY
Delay for turning the spindle fan off after the spindle has been turned off.
209 (L) COMMON SWITCH 2
Parameter 209 is a collection of general purpose single bit flags used to turn some functions on and off. Use left
and right cursor arrows to select the function being changed. All values are 0 or 1 only. Function names are:
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
23
194
LATHE T.C. - Designates control as a lathe.
RESET STOPS TL CHGR - Tool changer can be stopped with Reset button.
UNUSED
ENABLE CHIP CONVEYR - Enables chip conveyor, if machine is so equipped.
UNUSED
FRONT DOOR - When enabled, control looks for additional door switch and generates operator message.
UNUSED
UNUSED
UNUSED
SPIGOT KEY INVERT
T SUBROUTINE
RESERVED
REVERSED CONVEYOR - Reverses the direction of the chip conveyor.
M27-M28 CONVEYOR - Usually the chip conveyor motor and direction relays are attached to the user relays
M21 M22. When this bit is set, the control expects to see the conveyor hooked up to M27 and M28.
RESERVED
GREEN BEACON - When (1) user relay M25 is used to flash a beacon. If the control is in a reset state, the
beacon will be off. If the control is running normally, the beacon will be steadily on. If the control is in a M00,
M01, M02, M30 feedhold, or single block state, then the beacon will flash.
RED BEACON - When (1) user relay M26 is used to flash a beacon. The beacon flashes if the control is
experiencing an alarm or emergency stop condition.
CNVR DOOR HOLD OVRD - When (1) the conveyor will continue to run with the door open. When (0) the
conveyor will stop when the door is open, but will resume when the door is closed. For safety it is
recommended that the bit be set to (0).
DISABLED COOLANT IN
T.C. FWD CW - Determines the direction that the turret moves as viewed from the spindle, when the turret is
commanded forward. When (1), the turret will rotate clockwise for a forward command, and when (0), it will
rotate counterclockwise. The default is 1.
REMOTE TOOL RELEASE - Supports the VTC-48. It specifies that the machine has a remote tool release
button. It should be set to 1 on the VTC-48 and zero on all other lathes.
FLOPPY ENABLE - Enables an installed floppy disk drive.
MCODE RELAY BOARD - If set to 1, adds 16 additional relays, for a total of 56.
Parameters
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24 hpC ENABLE - When set to zero, the machine will behave normally. When set to 1, the High Pressure Coolant
pump can be turned on with M88 (this will first turn off the regular coolant if it was on, just like an M9). High
Pressure Coolant can be turned off with M89. Note also that if a tool change is commanded when the hpC
pump is running, it will be turned off, followed by a pause of the length specified by Parameter 237. hpC must
then be turned back on by the user’s program.
25 AUX JOG NACC - Does not allow accumulation on auxiliary axis jog. If the jog handle is moved rapidly the
auxiliary axis will not develop extremely large lags.
27 RAPID EXSTOP - Default is 1. When this bit is set to 1, the control will execute an exact stop after all rapid
motions, regardless of the next motion. When set to zero, the control will exact stop after a rapid only if the
next motion is not a rapid move.
28 UNUSED
29 HYDRAULICS - Must be set to 1 if a lathe has the hydraulic chuck clamping option.
30 STALL DETECT - Enables detection of spindle stall. If spindle stalls, the spindle motor is stopped and an
alarm is generated.
31 SPINDLE NOWAIT When (1), the machine will not wait for the spindle to come up to speed immediately after
an M03 or M04 command. Instead, it will check and/or wait for the spindle to come up to speed immediately
before the next interpolated motion is initiated. This bit does not affect rigid tapping.
209 (M) COMMON SWITCH 2
Parameter 209 is a collection of general purpose single bit flags used to turn some functions on and off. Use left
and right cursor arrows to select the function being changed. All values are 0 or 1 only. Function names are:
0 HS SERIES CNC - Set to one for HS series mills; set to zero for all other mills.
1 RESET STOPS TL CHGR - Tool changer can be stopped with Reset button.
2
3
4
5
6
7
8
9
12
13
14
15
16
17
18
19
20
21
22
CHAIN TOOL CHANGER - On all HS mills with the 60 or 120 pocket chain-style tool changer, it must be set to
1. On all other mills, it must be set to zero.
ENABLE CHIP CONVEYR - Enables chip conveyor, if machine is so equipped.
50% RAPID KEYBOARD - When (1) the control will support the 50% rapid traverse key. For controls without
a 50% rapid keypad set this bit to (0).
FRONT DOOR - When enabled, control looks for additional door switch and generates operator message.
NO Z HOME IN TL CHG - Horizontal mills only. Prevents Z-axis motion to machine zero prior to tool change.
M36 AUTO PAL ROTATE - Horizontal only. When set to (1), an M36 rotates the A-axis after the Part Ready
button is pressed.
AUX AXIS TL CHANGER - Horizontal mills only. When enabled, means the tool changer carousel is driven by
an aux. axis.
SPIGOT KEY INVERT - Controls the direction the spigot moves when the Coolant Up and Coolant Down
buttons are pressed. Changing this bit reverses the direction the spigot moves when the buttons are pressed. It
has no effect on the direction the spigot moves when commanded by the M34 and M35 codes.
REVERSE CONVEYOR - Reverses the direction of the chip conveyor.
PRE-ORIENT TAP - When this parameter bit is set to 1, a spindle orient command is issued automatically prior
to the repeat rigid tap function.
UNUSED
GREEN BEACON - When (1) user relay M25 is used to flash a beacon. If the control is in a reset state, the
beacon will be off. If the control is running normally, the beacon will be steadily on. If the control is in a M00,
M01, M02, M30 feedhold, or single block state, the beacon will flash.
RED BEACON - When (1) user relay M26 is used to flash a beacon. The beacon flashes if the control is
experiencing an alarm or emergency stop condition.
CNVR DOOR HOLD OVRD - When (1) the conveyor will continue to run with the door open. When (0) the
conveyor will stop when the door is open, but will resume when the door is closed. For safety it is
recommended that the bit be set to (0).
DISABLE COOLANT IN - If set to 1, low coolant input will not be used.
UNUSED
REMOTE TOOL RELEASE - If set to 1, allows use of remote tool release button on spindle head.
FLOPPY ENABLE - If set to 1, enables the optional disk drive.
TL CHG RECOV KEYPAD - If set to 1, enables tool changer restore button on keypad.
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Parameters
195
23 MCODE RELAY BOARD - If set to 1, allows for M-code addressing. Adds availability of additional outputs.
24 TSC ENABLE - When set to 1, DSBL CLNT IN bit is ignored, M24, M54, and M64 are disabled, and TSC will
operate. When set to zero, the control functions normally.
25 AUX JOG NACC - If the jog handle is moved rapidly, the auxiliary axis will not develope extremely large lags.
26 ALIAS M PROGR START - Alias M codes during program restart.
27 DISABLE JOG TEST - Disables the encoder test for the jog handle.
28 NO ZERO CLAMP - During zero return of pallet changer, the general sequence is 1) lift, 2) home, 3) lower.
When this bit is set to 1, only the first two steps are executed. The pallet remains in the unclamp position. This
bit was added to prevent damage to the pallet changer prior to Grid Offset and Tool Change Offset (zero return
offset for the pallet changer axis) set up.
29 PAL READY BUTTON - Accommodates both APC on vertical mill and Rotary Pallet Changer on Horizontal mill.
This bit should be set to 1 on 2-pallet APC’s to designate a single pallet button configuration. Four pallet APC’s
have a 2 schedule pallet button and should have this bit set to zero. This bit should be zero on Horizontal Mills,
since it is intended for future pallet changer software that replaces the macro program.
30 UNUSED
31 SPINDLE NOWAIT - When (1), the machine will not wait for the spindle to come up to speed immediately after
an M03 or M04 command. Instead, it checks and/or waits for it to come up to speed immediately before the
next interpolated motion is initiated. This bit does not affect rigid tapping or the TSC option.
210 (M) X TOOL CHANGE OFFSET
Used on the HS-2RP mill for X axis displacement from the home position to tool change position. If this
parameter contains an incorrect value, a horizontal mill will crash when it does a tool change.
211 (L) Y TOOL CHANGE OFFSET
Servo Autodoor—Offset distance from operator door closed switch to the desired closed position (units are encoder
steps). This is always a positive number.
211 (M) Y TOOL CHANGE OFFSET
Used on the HS-2RP mill for Y axis displacement from the home position to tool change position. If this parameter
contains an incorrect value, a horizontal mill will crash when it does a tool change.
212 A TOOL CHANGE OFFSET
Sets the distance between the A-axis grid offset (Parameter 128) and the spindle home position. The A-axis is
limited in movement to the area between the positive value of this parameter and the negative Max Travel.
213 (M) B TOOL CHANGE OFFSET
Sets the distance between the B-axis grid offset (Parameter 170) and the spindle home position. The B-axis will
be limited in movement to the area between the positive value of this parameter and the negative Max Travel. This
parameter must be used on all mills with the 60 or 120 pocket chain-style tool changer, as opposed to Parameter
215, Carousel Offset, which is used on other side-mount tool changers. Note that on a machine with a single
MOCON board, the Tt-axis parameters are automatically copied to the B-axis parameters and only the Tt-axis
parameters can be altered.
214 Sp D:Y CURRENT RATIO
Defines the ratio between the two winding configurations. The default winding is Y, and the parameters are set for
the Y winding. Used to adjust the parameters for the delta winding when the windings are switched.
215 (M) CAROUSEL OFFSET
Horizontal mills only. Precisely aligns tool 1 of tool changing carousel. Units are encoder steps.
216 CNVYR RELAY DELAY
Delay time in 1/50 seconds required on conveyor relays before another action is commanded.
217 CNVYR IGNORE OC TIM
Amount of time in 1/50 seconds before overcurrent is checked after conveyor motor is turned on.
218 COVYR RETRY REV TIM
Amount of time that the conveyor is reversed in 1/50 seconds after overcurrent is sensed.
196
Parameters
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219 CNVYR RETRY LIMIT
Number of times that the conveyor will cycle through the reverse/forward sequencing when an overcurrent is
sensed, before the conveyor will shut down. An overcurrent is sensed when chips jam the conveyor. By reversing
and then forwarding the conveyor, the chip jam may be broken.
220 CNVYR RETRY TIMEOUT
Time in 1/50 seconds between consecutive overcurrents in which an overcurrent is considered to be another retry.
If this time passes between overcurrents, the retry count is set to (0).
221 MAX TIME NO DISPLAY
Maximum time (in 1/50 sec.) between screen updates.
222 (L) LOW HYD. IGNORE TIM
Amount of time that the control ignores the LO HYD input bit after servos are engaged. The hydraulic unit requires
a short period of time to come up to pressure.
222 (M) ROTARY AXIS INCRMNT
For Horizontal mills only. Sets the degrees of rotation of the A-axis at an M36 or Pallet Rotate.
223 (M) AIR TC DOOR DELAY
For Horizontal mills only. Sets the delay to open the tool changer door (in milliseconds). If the tool changer does not
have a pneumatic door, this parameter is set to zero.
224 (M) ROT AXIS ZERO OFSET
Shifts the zero point of A for a wheel fixture or tombstone.
225 (M) MAX ROT AXIS ALLOW
For Horizontal mills with a wheel fixture only. Sets the maximum rotation (in degrees) allowed before stopping at
front door.
226 EDITOR CLIPBOARD
Assigns a program number (nnnnn) to the contents of the clipboard (for the advanced editor).
227 FLOPPY DIR NAME
When the disk drive is enabled and a directory is read, the directory listing is placed into a program as comments.
The program is then made the current program so the user can read the contents of the disk drive. This parameter
designates where to write the directory listing.
228 QUICKCODE FILE
Sets the program numbers to store in the Quick Code definition program.
229 X LEAD COMP 10E9
Sets the X-axis lead screw compensation signed parts per billion.
230 Y LEAD COMP 10E9
Sets the Y-axis lead screw compensation signed parts per billion.
231 Z LEAD COMP 10E9
Sets the Z-axis lead screw compensation signed parts per billion.
232 A LEAD COMP 10E9
Sets the A-axis lead screw compensation signed parts per billion.
233 B LEAD COMP 10E9
Sets the B-axis lead screw compensation signed parts per billion.
235 (L) AUTO DOOR PAUSE
Supports the Auto-Door feature. It specifies the length of a pause (in 50ths of a second) that occurs during the door
close sequence. As the door closes and the switch is activated, the motor is turned off for this amount of time and
the door coasts. This allows the door to close smoothly. This parameter should be set to 3 (0.06 seconds)
nominally. It works in conjunction with Parameter 236.
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Parameters
197
235 (M) TSC PISTON SEAT
With the 50 TSC option, the amount of time given for the piston to seat during system start-up. The default is 500
milliseconds. If machine has a 50 Taper spindle and the TSC option, this parameter must be set to 0.
236 (L) AUTO DOOR BUMP
Supports the Auto-Door feature. It specifies the length of time (in 50ths of a second) that the motor should be
reactivated after the pause specified by parameter 235. This causes the motor to close the door fully and smoothly.
This parameter should be set to 15 (0.3 seconds) nominally.
236 (M) TSC LOW PR FLT
After the TSC system has stabilized following start-up, Alarm 151 is generated if coolant pressure falls below 40 psi
for the amount of time set in this parameter.
237 (L) HPC PRESSURE BLEED
Supports the hpC (High Pressure Coolant) feature. It is the amount of time given for the coolant to purge when the
hpC system is shut off.
237 (M) TSC CLNT LINE PURGE
Amount of time given for the coolant to purge when the TSC system is shut off. May be increased to a higher value
to help purge coolant from small orifice tooling.
238 (L) SPINDLE AT SPEED %
Allows program to command spindle to certain speed and then continue to next block before spindle has actually
reached that speed. This is intended to make G-code programs run faster because the spindle can usually finish
accelerating while approaching the part. It is recommended that this parameter be set to 20. The result will be that
the lathe will act as though the spindle is at speed when it is within +/-20% of the commanded speed.
238 (M) TSC MAX SPINDLE RPM
When TSC is enabled and in use, this parameter limits the maximum spindle speed.
239 SPNDL ENC STEPS/REV
Sets the number of encoder steps per revolution of the spindle encoder.
240 1ST AUX MAX TRAVEL
Sets the maximum travel of the first auxiliary (C) axis in the positive direction.
241 2ND AUX MAX TRAVEL
Sets the maximum travel of the second auxiliary (U) axis in the positive direction.
242 3RD AUX MAX TRAVEL
Sets the maximum travel of the third auxiliary (V) axis in the positive direction.
243 4TH AUX MAX TRAVEL
Sets the maximum travel of the fourth auxiliary (W) axis in the positive direction.
244 1ST AUX MIN TRAVEL
Sets the maximum travel of the first auxiliary (C) axis in the negative direction.
245 2ND AUX MIN TRAVEL
Sets the maximum travel of the second auxiliary (U) axis in the negative direction.
246 3RD AUX MIN TRAVEL
Sets the maximum travel of the third auxiliary (V) axis in the negative direction.
247 4TH AUX MIN TRAVEL
Sets the maximum travel of the fourth auxiliary (W) axis in the negative direction.
248 (L) CHUCK UNCLAMP RPM
rpm above which the chuck will not operate. If the spindle is spinning faster than this value the chuck will not open,
and if it is spinning slower than this value the chuck will open. The default is 0, for safety.
198
Parameters
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248 (M) SMTC RLY ON/OFF DLY
Vertical mills with sidemount tool changers only. It specifies the time needed (in milliseconds) between turning off
one relay and turning on the other one, when reversing the carousel.
249 (L) CHUCK CLAMP DELAY
Dwell time allowed after clamping the chuck (an M10 command). Program execution will not continue until this time
has expired. Units are in milliseconds.
249 (M) TOOL CLAMP DELAY
Provides a delay after the tool has been clamped and before retraction of the tool carousel at the end of a tool
change. For most mills, this parameter should be set to zero. Units are milliseconds.
250 (L) CHUCK UNCLAMP DELAY
Dwell time allowed after unclamping the chuck (an M11 command). Program execution will not continue until this
time has expired. Units are in milliseconds.
250 (M) TOOL UNCLAMP DELAY
Provides a delay after the tool has been unclamped and before the spindle is backed away at the beginning of a
tool change. For most mills, this parameter should be set to zero. Units are in milliseconds.
251 A DOOR OPEN ERRTIME
Supports the Auto-Door feature. It is used for several things:
1) It specifies the number of 50ths of a second for the motor to run to open the door.
2) Parameter value plus one second specifies number of 50ths of a second for the motor to run to close the door.
3) If, at the end of the door-close time, the door has not yet reached the switch, Alarm 238, Door Fault is generated.
252 (L) TAIL ST. OVERLOAD Determines overload limit when the tailstock is traveling in the minus direction, toward the spindle. It is an arbitrary
value based on effective voltage being sent to the tailstock servo motor. If too low, you may not be able to move the
tailstock. Increase the value until you are able to move the tailstock. It is used for ball screw tailstock or TL-15.
252 (M) GEAR MOTOR TIMEOUT
Supports the Auto-Door feature. It specifies the length of time (in ms) that is allowed for the door to begin opening.
If the door does not move off the door-closed switch within this amount of time, Alarm 238, Door Fault is generated.
253 (L) TAIL ST. OVERLOAD +
Determines overload limit when tailstock is traveling in positive direction, away from spindle. Value for Parameter
253 should be approximately twice the value of Parameter 252. It is used for ballscrew tailstock or TL-15.
253 (M) SPIGOT FWD POS DLY
Specifies the length of a delay (units are ms) when moving the coolant spigot forward. This parameter should be
set to zero on all machines.
254 (L) SPINDLE CENTER
Reserved for service use only.
254 (M) TC AIR DOOR CLEARANCE
Incorporates the X-axis door clearance for the Mini-horizontal. This position is used during a tool change to avoid
hitting the tool changer door, since part of the door enters the machining area during a tool change.
This parameter also supports the VB-1 Bridge Mill tool carousel air door. The air door is a clamshell shaped door
covering the tool carousel, which raises up at one side by air power to allow the spindle to access the tools. In
order for it to open and close, there must be sufficient clearance between it and the spindle. This parameter must
be set to the correct value (in encoder units), Parameter 223, Air TC Door Delay must be set to a non-zero value,
Parameter 267, Zero Axis TC must be set to 1, and Parameter 278, TC DR Switch must be set to 1. When a tool
change is commanded, the following steps are performed:
1) The Y-axis is moved to the position specified by Parameter 254.
2) The air door is commanded to open.
3) There is a delay specified by Parameter 223 to allow the door to open fully.
4) The Y-axis is moved to zero and the tool change is performed.
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Parameters
199
5) The Y-axis is moved to the position specified by Parameter 254.
6) The air door is commanded to close.
7) There is a delay specified by Parameter 223 to allow the door to close fully.
255 CONVEYOR TIMEOUT
The number of minutes the conveyor will operate without any motion or keyboard action. After this time, the
conveyor will automatically shut off. Note that this parameter value will cause the conveyor to turn off even if the
intermittent feature is functioning. Note also that if this parameter is set to zero, the chip conveyor will shut off
immediately, i.e., pressing CHIP FWD or CHIP REV will not turn it on.
256 PALLET LOCK INPUT
The setting for EC-300 must be 26, the EC-400 must be 32, and the MDC-1 must be 27, or Alarm 180 will occur
when the spindle is turned on. This parameter should be set to zero on all lathes.
257 SPINDL ORIENT OFSET
If equipped with spindle vector drive (as set in bit 7 of Parameter 278), this bit sets spindle orientation offset. The
offset is the number of encoder steps between Z pulse and correct spindle orientation position. It is used to orient
the spindle properly anytime it needs to be locked, such as prior to a tool change, or orient spindle command.
258 (M) COLD SPINDLE TEMP
The first time Cycle Start is pressed after the machine has been turned on, control compares microprocessor
temperature (in degrees Fahrenheit) against value of this parameter. If microprocessor is colder, control assumes
spindle is too cold or inadequately lubricated to be run safely at high speed and the following message is displayed:
!!!WARNING!!!
YOUR MACHINE IS COLD, RUN A WARM-UP PROGRAM BEFORE RUNNING THE SPINDLE AT HIGH SPEED
OR DAMAGE MAY RESULT
PRESS ‘CANCEL’ TO CONTINUE
The user must press Cancel before continuing. It is recommended that a spindle warm-up program be run
immediately. This message will only appear once each time the machine has been turned on. The initial value for
this parameter is 70 (degrees F). To disable this feature, change it to zero.
259 (M) COLD SPINDLE DAYS
The first time Cycle Start is pressed after the machine is turned on, the control will compare the number of days
that have passed since the machine was turned off against the value of this parameter. If the machine has been
off longer, the control will assume that the spindle is too cold or inadequately lubricated to be run safely at high
speed and the following message will be displayed:
!!!WARNING!!!
YOUR MACHINE IS COLD, RUN A WARM-UP PROGRAM BEFORE RUNNING THE SPINDLE AT HIGH SPEED
OR DAMAGE MAY RESULT
PRESS ‘CANCEL’ TO CONTINUE
The user must press CANCEL before continuing. It is recommended that a spindle warm-up program be run
immediately. This message will only appear once each time the machine has been turned on. The initial value for
this parameter is 3 (days). To disable this feature, change it to 999999.
266 (L) X SWITCH B
Parameter 266 is a collection of single-bit flags used to turn servo related functions on and off. The left and right
cursor arrows are used to select the function being changed. All values are 0 or 1 only. The function names are:
0 X LIN SCALE EN - Used to enable linear scales for the X-axis.
1 X INVRT LN SCL - Used to invert the X-axis linear scale.
2 X DSBL LS ZTST - Used to disable the linear scale Z test.
3 TH SNSR COMP - Used for Ballscrew Thermal Compensation via a temperature sensor attached to the ball
nut. When this bit is set to 1, the feature is activated for that axis. Note that the feature can only be used when
temperature sensors are installed. The following parameters must be set appropriately:
4 X 2ND HOME BTN - Moves axis to coordinate specified in Work Ofset G129.
5 X NEG COMP DIR - Negates the direction of thermal compensation.
7 MAX TRAV INP
200
Parameters
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8 NO ZERO/NOHOME - Intended for lathes with extra tools mounted on the outside of the turret. If this bit is set
to zero, it has no effect. If set to 1, the associated axis will not move whenPower Up/Restart, Home G28 or Auto
All Axes is pressed. The reason for this feature is to help prevent collisions between tools mounted on the
outside of the turret and a sub-spindle mounted on the tailstock. It is important to note that a single axis Home
G28 (e.g., press Z then Home G28) and any G28 specified in a program will still cause the axis to move
regardless of the value of the parameter bit. Operator must exercise care when commanding any axis move.
266 (M) X SWITCH B
Parameter 266 is a collection of single-bit flags used to turn servo related functions on and off. The left and right
cursor arrows are used to select the function being changed. All values are 0 or 1 only. The function names are:
0 X LIN SCALE EN - Enables linear scales for the X axis.
1 X INVRT LN SCL - Inverts the X-axis linear scale.
2 DSBL SCALE Z - Disables the linear scale Z test.
3 X ZERO AXIS TC - Returns axis to the position specified by the Tool Change Offset parameter prior to a tool
change. On mills with a gimbaled spindle, this bit must be set to 1 on the A and B axes (Parameter 269 and
270) and 0 on all other axes.
4 X 2ND HOME BTN - Moves axis to coordinate specified in Work Offset G129.
5 X NEG COMP DIR - Negates the direction of thermal compensation.
6 X DELAY AXIS 0 - Used with an APL to ensure X-axis is zeroed before A-axis of APL
7 X MAX TRAVEL INP - This bit is set to 1 on five axis machines. This bit indicates that there is a switch (visible
through MOCON) that detects if the axis has rotated all the way round. It is used to tell the control to skip the
first zero switch when zeroing so it can unwrap the cables.
9 X TEMP SENSOR - Performs Ballscrew Thermal Compensation via a temperature sensor attached to the ball
nut. When this bit is set to 1, the feature is activated for that axis. Note that this feature can only be used when
temperature sensors are installed.
16 SCALE Z HIST - For Haas diagnostic use only.
267 (L) Y SWITCH B
Parameter 267 is a collection of single-bit flags used to turn servo related functions on and off. The left and right
cursor arrows are used to select the function being changed. All values are 0 or 1 only. The function names are
0 Y LIN SCALE EN - Enables linear scales for the Y-axis.
1 Y INVRT LN SCL - Inverts the Y-axis linear scale.
2 Y DSBL LS ZTST - Disables the linear scale Z test.
3 TH SNSR COMP - Used for Ballscrew Thermal Compensation via a temperature sensor attached to the ball
nut. When this bit is set to 1, the feature is activated for that axis. Note that the feature can only be used when
temperature sensors are installed.
4 Y 2ND HOME BTN - Moves the axis to coordinate specified in Work Ofset G129
5 Y NEG COMP DIR - Negates the direction of thermal compensation
7 MAX TRAV INP
8 NO ZERO/NOHOME - Intended for lathes that have extra tools mounted on the outside of the turret. If this bit is
set to zero, it will have no effect. If it is set to 1, the associated axis will not move when Power Up/Restart,
Home G28 or Auto All Axes is pressed. The reason for this feature is to help prevent collisions between tools
mounted on the outside of the turret and a sub-spindle mounted on the tailstock. It is important to note that a
single axis Home G28 (e.g., press Z then Home G28) and any G28 specified in a program will still cause the
axis to move regardless of the value of this parameter bit. The operator must exercise care when commanding
any axis move.
267 (M) Y SWITCH B
Parameter 267 is a collection of single-bit flags used to turn servo related functions on and off. The left and right
cursor arrows are used to select the function being changed. All values are 0 or 1 only. The function names are:
0 Y LIN SCALE EN - Enables linear scales for the Y-axis.
1 Y INVRT LN SCL - Inverts the Y-axis linear scale.
2 DSBL SCALE Z - Disables the linear scale Z test.
3 Y ZERO AXIS TC - Returns axis to the position specified by the Tool Changer Offset parameter prior to a tool
change. On mills with a gimbaled spindle, this bit must be set to 1 on the A and B axes (Parameter 269 and
270) and 0 on all other axes.
4 Y 2ND HOME BTN - Moves the axis to coordinate specified in Work Offset G129.
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Parameters
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Y NEG COMP DIR - Negates the direction of thermal compensation.
Y DELAY AXIS 0 - Used with an APL to ensure Y-axis is zeroed before A-axis of APL.
Y MAX TRAVEL INP - This bit is set to 1 on five axis machines. This bit indicates that there is a switch (visible
through MOCON) that detects if the axis has rotated all the way round. It is used to tell the control to skip the
first zero switch when zeroing so it can unwrap the cables.
9 Y TEMP SENSOR - Performs Ballscrew Thermal Compensation via a temperature sensor attached to the ball
nut. When this bit is set to 1, the feature is activated for that axis. Note that this feature can only be used when
temperature sensors are installed.
16 SCALE Z HIST - For Haas diagnostic use only.
5
6
7
268 (L) Z SWITCH B
Parameter 268 is a collection of single-bit flags used to turn servo related functions on and off. The left and right
cursor arrows are used to select the function being changed. All values are 0 or 1 only. The function names are:
0 Z LIN SCALE EN - Enables linear scales for the Z-axis.
1 Z INVRT LN SCL - Inverts the Z-axis linear scale.
2 Z DSBL LS ZTST - Disables the linear scale Z test.
3 TH SNSR COMP - Used for Ballscrew Thermal Compensation via a temperature sensor attached to the ball
nut. When this bit is set to 1, the feature is activated for that axis. Note that the feature can only be used when
temperature sensors are installed.
4 Z 2ND HOME BTN - Moves the axis to coordinate specified in Work Ofset G129
5 Z NEG COMP DIR - Negates the direction of thermal compensation
7 MAX TRAV INP
8
NO ZERO/NOHOME - Intended for lathes that have extra tools mounted on the outside of the turret. If this bit is
set to zero, it will have no effect. If it is set to 1, the associated axis will not move when Power Up/Restart,
Home G28 or Auto All Axes is pressed. The reason for this feature is to help prevent collisions between tools
mounted on the outside of the turret and a sub-spindle mounted on the tailstock. It is important to note that a
single axis Home G28 (e.g., press Z then HOME G28) and any G28 specified in a program will still cause the
axis to move regardless of the value of this parameter bit. Exercise care when commanding any axis move.
268 (M) Z SWITCH B
Parameter 268 is a collection of single-bit flags used to turn servo related functions on and off. The left and right
cursor arrows are used to select the function being changed. All values are 0 or 1 only. The function names are:
0 Z LIN SCALE EN - Enables linear scales for the Z-axis.
1 Z INVRT LN SCL - Inverts the Z-axis linear scale.
2 DSBL SCALE Z - Disables the linear scale Z test.
3 Z ZERO AXIS TC - Returns axis to the position specified by the Tool Changer Offset parameter prior to a tool
change. On mills with a gimbaled spindle, this bit must be set to 1 on the A and B axes (Parameter 269 and
270) and 0 on all other axes.
4 Z 2ND HOME BTN - Moves the axis to coordinate specified in Work Offset G129.
5 Z NEG COMP DIR - Negates the direction of thermal compensation.
6 Z DELAY AXIS 0 - Used with an APL to ensure Z-axis is zeroed before A-axis of APL
7 Z MAX TRAVEL INP - This bit is set to 1 on five axis machines. This bit indicates that there is a switch (visible
through MOCON) that detects if the axis has rotated all the way round. It is used to tell the control to skip the
first zero switch when zeroing so it can unwrap the cables.
9 Z TEMP SENSOR - Performs Ballscrew Thermal Compensation via a temperature sensor attached to the ball
nut. When this bit is set to 1, the feature is activated for that axis. Note that this feature can only be used when
temperature sensors are installed.
16 SCALE Z HIST - For Haas diagnostic use only.
269 (L) A SWITCH B
Parameter 269 is a collection of single-bit flags used to turn servo related functions on and off. The left and right
cursor arrows are used to select the function being changed. All values are 0 or 1 only. The function names are:
0 A LIN SCALE EN - Enables linear scales for the A-axis.
1 A INVRT LN SCL - Inverts the A-axis linear scale.
2 A DSBL LS ZTST - Disables the linear scale Z test.
202
Parameters
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3
4
5
7
8
TH SNSR COMP - Used for Ballscrew Thermal Compensation via a temperature sensor attached to the ball
nut. When this bit is set to 1, the feature is activated for that axis. Note that the feature can only be used when
temperature sensors are installed.
A 2ND HOME BTN - Moves the axis to coordinate specified in Work Ofset G129
A NEG COMP DIR - Negates the direction of thermal compensation
MAX TRAV INP
NO ZERO/NOHOME - Intended for lathes that have extra tools mounted on the outside of the turret. If this bit is
set to zero, it will have no effect. If it is set to 1, the associated axis will not move when Power Up/Restart,
Home G28 or Auto All Axes is pressed. The reason for this feature is to help prevent collisions between tools
mounted on the outside of the turret and a sub-spindle mounted on the tailstock. It is important to note that a
single axis Home G28 (e.g., press Z then Home G28) and any G28 specified in a program will still cause the
axis to move regardless of the value of this parameter bit. Exercise care when commanding any axis move.
269 (M) A SWITCH B
Parameter 269 is a collection of single-bit flags used to turn servo related functions on and off. The left and right
cursor arrows are used to select the function being changed. All values are 0 or 1 only. The function names are:
0 A LIN SCALE EN - Enables linear scales for the A-axis.
1 A INVRT LN SCL - Inverts the A-axis linear scale.
2 DSBL SCALE Z - Disables the linear scale Z test.
3 A ZERO AXIS TC - Returns axis to position specified by Tool Changer Offset parameter prior to a tool change.
4 A 2ND HOME BTN - Moves the axis to coordinate specified in Work Offset G129.
5 A NEG COMP DIR - Negates the direction of thermal compensation.
6 A DELAY AXIS 0 - Used with an APL to ensure A-axis is zeroed before B-axis of APL.
7 A MAX TRAVEL INP - This bit is set to 1 on five axis machines. This bit indicates that there is a switch (visible
through MOCON) that detects if the axis has rotated all the way round. It is used to tell the control to skip the
first zero switch when zeroing so it can unwrap the cables.
9 A TEMP SENSOR - Performs Ballscrew Thermal Compensation via a temperature sensor attached to the ball
nut. When this bit is set to 1, the feature is activated for that axis. Note that this feature can only be used when
temperature sensors are installed.
16 SCALE Z HIST - For Haas diagnostic use only.
270 (L) B SWITCH B
Parameter 270 is a collection of single-bit flags used to turn servo related functions on and off. The left and right
cursor arrows are used to select the function being changed. All values are 0 or 1 only. The function names are:
0 B LIN SCALE EN - Enables linear scales for the B-axis.
1 B INVRT LN SCL - Inverts the B-axis linear scale.
2 B DSBL LS ZTST - Disables the linear scale Z test.
3 TH SNSR COMP - Used for Ballscrew Thermal Compensation via a temperature sensor attached to the ball
nut. When this bit is set to 1, the feature is activated for that axis. Note that the feature can only be used when
temperature sensors are installed.
4 B 2ND HOME BTN - Moves the axis to coordinate specified in Work Ofset G129
5 B NEG COMP DIR - Negates the direction of thermal compensation
7 MAX TRAV INP
8 NO ZERO/NOHOME - Intended for lathes that have extra tools mounted on the outside of the turret. If this bit is
set to zero, it will have no effect. If it is set to 1, the associated axis will not move when Power Up/Restart,
Home G28 or Auto All Axes is pressed. The reason for this feature is to help prevent collisions between tools
mounted on the outside of the turret and a sub-spindle mounted on the tailstock. It is important to note that a
single axis Home G28 (e.g., press Z then Home G28) and any G28 specified in a program will still cause the
axis to move regardless of the value of this parameter bit. Exercise care when commanding any axis move.
270 (M) B SWITCH B
Parameter 270 is a collection of single-bit flags used to turn servo related functions on and off. The left and right
cursor arrows are used to select the function being changed. All values are 0 or 1 only. The function names are:
0 B LIN SCALE EN - Enables linear scales for the B-axis.
1 B INVRT LN SCL - Inverts the B-axis linear scale.
2 DSBL SCALE Z - Disables the linear scale Z test.
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Parameters
203
B ZERO AXIS TC - Returns axis to the position specified by the Tool Changer Offset parameter prior to a tool
change. On mills with a gimbaled spindle, this bit must be set to 1 on the A and B axes (Parameter 269 and
270) and 0 on all other axes. On all mills with 60 or 120 pocket chain-style tool changer, this bit must be set to
1. It will cause to tool changer offset parameter to be used for tool changes.
4 B 2ND HOME BTN - Moves the axis to coordinate specified in Work Offset G129.
5 B NEG COMP DIR - Negates the direction of thermal compensation.
6 B DELAY AXIS 0 - Used with an APL to ensure B-axis is zeroed before A-axis of APL.
7 B MAX TRAVEL INP - This bit is set to 1 on five axis machines. This bit indicates that there is a switch (visible
through MOCON) that detects if the axis has rotated all the way round. It is used to tell the control to skip the
first zero switch when zeroing so it can unwrap the cables.
9 B TEMP SENSOR - Performs Ballscrew Thermal Compensation via a temperature sensor attached to the ball
nut. When this bit is set to 1, the feature is activated for that axis. Note that this feature can only be used when
temperature sensors are installed.
16 SCALE Z HIST - For Haas diagnostic use only.
3
271 (L) Sp SWITCH B
Parameter 271 is a collection of single-bit flags used to turn servo related functions on and off. The left and right q
cursor arrows are used to select the function being changed. All values are 0 or 1 only. The function names are:
0 C LIN SCALE EN - Enables linear scales for the C-axis.
1 C INVRT LN SCL - Inverts the C-axis linear scale.
2 C DSBL LS ZTST - Disables the linear scale Z test.
3 TH SNSR COMP - Used for Ballscrew Thermal Compensation via a temperature sensor attached to the ball
nut. When this bit is set to 1, the feature is activated for that axis. Note that the feature can only be used when
temperature sensors are installed.
4 C 2ND HOME BTN - Moves the axis to coordinate specified in Work Ofset G129
5 C NEG COMP DIR - Negates the direction of thermal compensation
7 MAX TRAV INP
8 NO ZERO/NOHOME - Intended for lathes that have extra tools mounted on the outside of the turret. If this bit is
set to zero, it will have no effect. If it is set to 1, the associated axis will not move when Power Up/Restart,
Home G28 or Auto All Axes is pressed. The reason for this feature is to help prevent collisions between tools
mounted on the outside of the turret and a sub-spindle mounted on the tailstock. It is important to note that a
single axis Home G28 (e.g., press Z then Home G28) and any G28 specified in a program will still cause the
axis to move regardless of the value of this parameter bit. Exercise care when commanding any axis move.
271 (M) Sp SWITCH B
Parameter 271 is a collection of single-bit flags used to turn servo related functions on and off. This parameter is
not used when the machine is equipped with a Haas vector drive. The left and right cursor arrows are used to
select the function being changed. All values are 0 or 1 only. The function names are:
0 C LIN SCALE EN - Enables linear scales for the C-axis.
1 C INVRT LN SCL - Inverts the C-axis linear scale.
2 DSBL SCALE Z - Disables the linear scale Z test.
3 C ZERO AXIS TC - Returns axis to position specified by Tool Changer Offset parameter prior to a tool change.
4 C 2ND HOME BTN - Moves the axis to coordinate specified in Work Offset G129.
5 C NEG COMP DIR - Negates the direction of thermal compensation.
6 C DELAY AXIS 0 - Used with an APL to ensure C-axis is zeroed before A-axis of APL.
16 SCALE Z HIST - For Haas diagnostic use only.
272 X SCREW COMP T. CONST
Thermal compensation time constant, and is the time constant governing the rate of cool down of the screw.
273 Y SCREW COMP T. CONST
Thermal compensation time constant, and is the time constant governing the rate of cool down of the screw.
274 Z SCREW COMP T. CONST
Thermal compensation time constant, and is the time constant governing the rate of cool down of the screw.
275 (M) A SCREW COMP T. CONST
This parameter should be set to 0. See Parameter 201 for description.
204
Parameters
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276 B SCREW COMP T. CONST
This parameter should be set to 0. See Parameter 201 for description.
278 (L) COMMON SWITCH 3
Parameter 278 is a collection of general purpose single bit flags used to turn some functions on and off. Left and
right cursor arrows are used to select function to change. All values are 0 or 1 only. Function names are:
0 INVERT G.B. Default 0. Setting to 1 inverts discrete inputs sense for SP HIGH and LOW (high and low gear).
1 UNUSED
2 CHECK PALLET IN
3 CHK HIDDN MACRO VAR
4 DISPLAY ACTUAL rpm - When set to 1, displays actual spindle speed on Current Commands display page.
5 TSC PURGE ENABLE
6 HYDRAULIC TAILSTOCK - Enables the hydraulic tailstock
7 SPINDLE DRIVE LOCK - Must be set to 0 if machine is equipped with a Haas vector spindle drive.
8 CHUCK OPEN CSTART - When set to 1, the user can press Cycle Start and run a program with the chuck
unclamped. If the spindle is commanded with this bit set to 1, the spindle will not exceed the Chuck Unclamp
rpm (Parameter 248). This feature is ineffective when the CE safety circuit is enabled.
9 CONCURRENT SPINDLE - When set to 0, spindle start occurs at the end of a block, as in normal M code
operation. When set to 1, spindle start occurs at the beginning of a block and concurrent with axis motion.
10 TL SET PROBE - Must be set to 1 in order to enable the Tool Pre-Setter.
11 HAAS VECTOR DRIVE (Haas Vector Drive) - Must be set to 1 if machine is equipped with a Haas vector
spindle drive. When set to 1, voltage to the vector drive is displayed in the diagnostics display as DC BUSS.
12 uP ENCLOSURE TEMP (Microprocessor enclosure temperature) - When set to 1, enclosure temperature will
be displayed on INPUTS2 screen of the diagnostics display.
13 HAAS REMOTE JOG HDL (Haas remote jog handle) - Must be set to 1 if the machine is equipped with a Haas
5-axis Remote jog handle.
14 SPIN MOTOR OTEMP NC (Spindle Motor Over Temperature Normally Closed) - Type (normally open/normally
closed) of spindle temperature sensor. Set to 1 for machines with Haas vector drive; 0 for machines without.
15 SUBSP TMP NC (Subspindle Temperature Sensor Normally Closed) - Type, (normally open/normally closed) of
the subspindle temperature sensor.
16 UNUSED
17 NO MFIN CKPU - When it is set, it will prevent checking of MFIN at power-up.
18 DEL:Y SWITCH ENABLE (Delta Wye switch enable) - Used for machine with vector drive. If switch is set, but
bit 19 is not, winding switching is only done when spindle is at rest, depending on the spindle target speed.
19 DEL:Y SWITCH ON FLY (Delta Wye switch enable) - Used for machine with a vector drive. This parameter
enables switching on the fly, as the spindle motor is accelerating or decelerating through the switch point.
20 CHK BARFEED STATUS - Added for improved Bar Feeder interface. When set to 1, control constantly checks
Bar Feeder Status on discrete input 1027. If this input goes high, Alarm 450, Bar Feeder Fault will be generated
and the servos and spindle will be turned off. Note that the spindle will simply coast to a stop.
21 CHK BF SPIND I-LOCK - Added for improved Bar Feeder interface. When set to 1, the control constantly
checks the Bar Feeder Spindle Interlock on discrete input 1030. If this input goes high, and the spindle is being
commanded to turn, or coasting or being manually turned at 10rpm or more, Alarm 451, Bar Feeder Spindle
Interlock is generated and servos and spindle are turned off. Note that the spindle will simply coast to a stop.
22 UNUSED
23 UNUSED
24 LIVE TOOLING - Bit = 1 for lathes fitted with Live Tooling. For all other lathes, this bit is set to 0.
25 SUBSPINDLE - Enables G14, G15, M143, M144, M145. Must be set to 1 for lathes with subspindle. When set
to 1, control displays Function Locked when Auto All Axes, Home G28, or Power Up/Restart button is pressed.
26 C AXIS DRIVE - Enables M154 and M155. It must be set to 1 for all lathes with the C-axis.
27 UNUSED
28 VSMTC ENABLE
29 DOOR SAFETY SW INV - Supports CE door interlock that locks when power is turned off. For machines with
door lock that locks when power is applied, set bit to 0. For machines with inverted door lock, set bit to 1.
30 UNUSED
31 INV SPIND SPD DECEL (Inverse spindle speed deceleration) - When this parameter is set to 1, the spindle
decelerates faster at lower speeds, resulting in a shorter deceleration time.
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Parameters
205
278 (M) COMMON SWITCH 3
Parameter 278 is a collection of general purpose single bit flags used to turn some functions on and off. This bit will
cause the machine to use discrete outputs 21 and 26 to command the shuttle to move in and out. On mills with the
Air Driven Shuttle it must be set to 1. On all other mills it must be set to 0. The left and right cursor arrows are used
to select the function being changed. All values are 0 or 1 only. The function names are:
0 INVERT GEARBOX SIGS - Allows an alternate gearbox configuration. It inverts the sense of the gearbox
inputs. Used for 50 taper option.
1 DPR SERIAL - Causes the main serial inputs/outputs to go through the disk video board.
2 CHECK PALLET INPUT - If set to 1, discrete input specified by Parameter 256, Pallet Lock Input is checked
prior to execution of a spindle command. If the input is high (i.e., an open circuit), Alarm 180 is generated. The
input is also checked while the spindle is turning and generates the same alarm if it goes high. Thus, the input
can now be used to stop a program after the spindle has been commanded to turn (such as by a pressure
switch from the user’s clamp or fixture).
3 CHK HIDDN MACRO VAR - Used on horizontal mills only.
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
206
DISPLAY ACTUAL rpm - When set to 1, displays actual spindle speed on Current Commands display page.
TSC PURGE ENABLE - Enables purge output on TSC option.
SINGLE CLAMP SWITCH - Enables control to rely upon a single switch to detect clamp position of Side-Mount
Tool Changer arm. When set to zero, both upper and lower switches are used to detect arm position. When set
to one, only the lower switch is used. The control will now not wait until the upper switch is tripped to conclude
the tool is clamped, so subsequent operations can begin immediately. This increases tool change speed.
SPINDLE DRIVE LOCK - Must be set to 1 if machine is equipped with a non-Haas vector spindle drive. This bit
must be set to 1 if the machine has a 50 taper spindle or a non-Haas vector drive.
UNUSED
CONCURENT SPINDLE - When set to 1, the spindle is commanded to start concurrently with other commands
in the same block. In the following example, with this bit set to 1, the spindle will start at the same time as the
rapid move: G0 X-1. S7500 M3;
HS3 HYDRAULIC TL CH - Used with the 38-tool SMTC on the HS-3. When this is set to zero, the mill will
behave normally. When it is set to 1, the control will recognize that the toolchanger is a 38-tool SMTC.
HAAS VECTOR DRIVE - Must be set to 1 if machine is equipped with a Haas vector spindle drive. When set to
1, voltage to the Haas vector drive is displayed in the diagnostics display as DC BUSS.
uP ENCLOSURE TEMP (Microprocessor Enclosure Temperature) - When set to 1, enclosure temperature will
be displayed on INPUTS2 screen of the diagnostics display.
HAAS REMOTE JOG HDL (Haas Remote Jog Handle) - Must be set to 1 if the machine is equipped with a
Haas 5-Axes Remote Jog Handle.
SPIN MOTOR OTEMP NC (Spindle Temperature Sensor Normally Closed) - Type (normally open/normally
closed) of the spindle temperature sensor. This bit should be set to 1.
AIR DRIVE SHUTTLE - Causes machine to use discrete outputs 21 and 26 to command the shuttle to move in
and out. On mills with the Air Driven Shuttle it must be set to 1. On all other mills it must be set to 0.
GIMBAL SPINDLE - Used on 5-axes mills. Causes the machine to check that the Z, A, and B axes are at zero
before a tool change is started. If one is not, Alarm 150 will be generated. On mills with the gimbaled Spindle
it must be set to 1. On all other mills it must be set to 0.
NO MFIN CHK ON P-UP - When this bit is set, it will prevent checking of MFIN at power-up. It should be set for
1 for all machines that have the Haas Automatic Pallet Changer attached, and 0 for all other machines.
DEL:Y SWITCH ENABLE (Delta Wye switch enabled) - Used for the Vector Drive. Enables the switching of
spindle motor windings, provided the hardware Enable is installed, and the proper parameters are set. If this
switch is set, but bit 19 is not, the winding switching will only be done when the spindle is at rest, depending on
the target speed of the spindle.
DEL:Y SWITCH ON FLY - Enables switching on the fly, as the spindle motor is accelerating or decelerating
through the switch point. If bit 18 is not set, this switch will be ignored.
5 AX TOFS -X - Used with G143 (modal 5 axes tool length compensation) on machines with a gimbaled
spindle. If it is set to 1, this means that when the corresponding rotary axis is moved, the sign of the X Position
must be inverted. Normally, this bit should be set to 0.
5 AX TOFS -Y - Used with G143 (modal 5 axes tool length compensation) on machines with a gimbaled
spindle. If it is set to 1, when the corresponding rotary axis is moved, the sign of the Y Position must be
inverted. Normally, this bit should be set to 0.
Parameters
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22 B+C 5 AXES - Used with G142 (modal 5 axes tool length compensation) on machines with a gimbaled spindle.
The B-axis normally moves the A-axis, but if this is not true, this bit can be set to change which is the inner axis.
Normally, this bit should be set to 0.
23 TL CHGR DOOR SWITCH - Horizontal tool carousel door configuration. This bit specifies the Horizontal Mill
tool carousel door configuration. If it is set to 0, it indicates the configuration where the door is driven open by a
timed operation. If it is set to 1, it indicates the configuration where the door is spring-loaded closed and is
driven open by the timed operation against the door open switch. In open position, the door switch signal is 0
(low). Switch status is checked before and after commanding the door to open to be fail-safe.
For all horizontal mills with the switch installed, the bit is set to 1. For all other mills, this bit must be set to 0.
24 HS2 SMTC CAROUSEL
25 HS3 SMTC CAROUSEL
26 S MNT BIT 1 - Bits 26, 27, and 28 specify the type of sidemount tool changer installed on a vertical mill. The
following table shows the bit combinations that must be used:
Bit
26
27
28
0
0
0
No side-mount tool changer installed
1
0
0
Serpentine 1
0
1
0
Serpentine 2
1
1
0
Serpentine 3
0
0
1
Disk 1
1
0
1
Disk 2
0
1
1
Disk 3
1
1
1
Disk 4
27 S MNT BIT 2 - Bits 26, 27, and 28 specify the type of sidemount tool changer installed on a vertical mill.
28 S MNT BIT 3 - Bits 26, 27, and 28 specify the type of sidemount tool changer installed on a vertical mill.
29 DOOR SAFETY SW INV - Supports the CE door interlock that locks when power is turned off.
30 SWAP A & C AXES - Causes the A and C axes to be swapped internally.
31 INV SPIND SPD DECEL (Inverse Spindle Speed Deceleration) - When this parameter is set to 1, the spindle
decelerates faster at lower speeds, resulting in a shorter deceleration time.
279 (M) X SCALE GAIN MULT
Used on machines with linear scales. Linear scales are used to continuously correct any errors in encoder position.
The parameter determines the gain of the correction factor; that is, how fast it corrects, and should be set to 40.
280 (M) Y SCALE GAIN MULT
See Parameter 279 for description.
281 (M) Z SCALE GAIN MULT
See Parameter 279 for description.
282 (M) A SCALE GAIN MULT
See Parameter 279 for description.
283 (M) B SCALE GAIN MULT
See Parameter 279 for description.
284 (M) Sp SCALE GAIN MULT
See Parameter 279 for description.
285 X LINEAR SCREW OFFS
Used on machines with linear scales. This parameter accounts for the unused portion of the ballscrew between
zero and the actual motor.
286 Y LINEAR SCREW OFFS
See Parameter 285 for description.
287 Z LINEAR SCREW OFFS
See Parameter 285 for description.
288 (M) A LINEAR SCREW OFFS
See Parameter 285 for description. N/A for lathes.
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Parameters
207
289 (M) B LINEAR SCREW OFFS
See Parameter 285 for description. N/A for lathes.
291 (L) HYD TS NO MOT. TIME
Number in milliseconds that must pass with no B-axis encoder change before the control decides that the tailstock
has stopped. The parameter affects homing and alarm situations on the tailstock. If the tailstock pressure is set low
and the tailstock does not home properly then increase this parameter.
291 (M) LOW BRAKE OIL TIME
Supports EC-1600 A-axis brake oil sensor. Units are seconds. When set to non-zero number and sensor indicates
low oil condition for more than that amount of time, control causes red beacon to flash and displays LOW BK OIL. If
the low oil condition continues, Alarm 643, Low Brake Oil A-axis is generated when the program ends.
292 (L) HYD TS RTRACT MARGN)
Sets the acceptable range, in encoder steps, for the retract point. When the tailstock stops anywhere within this
range, the control assumes it is at the retract point.
292 (M) AUTO DOOR PAUSE
Supports the Auto-Door feature. It specifies the length of a pause (in 50ths of a second) that occurs during the door
close sequence. As the door closes and the switch is activated, the motor is turned off for this amount of time and
the door coasts. This allows the door to close smoothly. It works in conjunction with Parameter 293.
293 (L) HYD TS SLOW DISTNCE
Sets the distance, prior to a target point, where the tailstock will transition from a rapid movement to a feed. For
example, if this parameter is set to 30 (the default), this means the tailstock will slow to a feed 30 encoder steps
before reaching the target point. Units are in encoder steps.
293 (M) AUTO DOOR BUMP
Supports the Auto-Door feature. It specifies the length of time (in 50ths of a second) that the motor should be
reactivated after the pause specified by Parameter 292. This causes the motor to close the door fully and smoothly.
This parameter should be set to 2 (0.04 seconds) nominally.
294 MIN BUSS VOLTAGE
Minimum Haas Vector Drive buss voltage. It should be set to 200 (the units are volts). Alarm 160 is generated if the
voltage falls below this value.
295 (M) SHTL SETTLE TIME
Used on mills with an air driven shuttle. Allows settling time for the shuttle after it has moved toward the spindle
and before a tool change is performed. It should be set to approximately half a second (500) on all mills with the air
driven shuttle. This may vary. All other mills can be set to 0, since they are unaffected.
296 MAX OVER VOLT TIME
Specifies the amount of time (in 50ths of a second) that an overvoltage condition (Alarm 119, Over Voltage) will be
tolerated before the automatic shut down process is started.
297 MAX OVER HEAT TIME
Specifies the amount of time (in 50ths of a second ) that an overheat condition (Alarm 122, Regen Overheat) will
be tolerated before the automatic shut down process is started.
298 (L) Y AX RTAP BACKLASH
This parameter is normally set to zero, but can be adjusted by the user (to a number typically between 0 and 1000)
to compensate for play in the center of the main spindle. It takes effect during G95 Subspidle Rigid Tap when the
tool has reached the bottom of the hole and must reverse direction to back out.
298 (M) MAX FEED (DEG/MIN)
Used on 5-axis mills. Maximum rotary feedrate in degrees per minute. Any attempt at cutting faster than this will
result in “LIM” being displayed next to the Feed message on the Program Command Check screen. On mills with a
gimbaled spindle, this parameter must be set to 300. For all other mills,it should be set to 99999.
208
Parameters
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299 AUTOFEED-STEP-UP
Works with Autofeed. It specifies the feedrate step-up percentage per second and should initially be set to 10.
300 AUTOFEED-STEP-DOWN
Works with the Autofeed feature. It specifies the feedrate step-down percentage per second and should initially be
set to 20.
301 AUTOFEED-MIN-LIMIT
Works with the Autofeed feature. It specifies the minimum allowable feedrate override percentage that the Autofeed
feature can use and should initially be set to 1.
NOTE: In Lathes, the feed and spindle overrides will be locked out when tapping,
so the Autofeed feature will be ineffective (although the display will appear
to respond to the override buttons.)
NOTE: In Lathes, last commanded feedrate is restored at the end of the program
execution, or when the operator presses Reset or turns off Autofeed.
NOTE: In Lathes, the operator may use the feedrate override buttons while the
Autofeed feature is active. As long as tool load limit is not exceeded, these
buttons will have the expected effect and the overridden feedrate will be
recognized as the new commanded feedrate by the Autofeed feature.
However, if the tool load limit has already been exceeded, the control will
ignore the feedrate override buttons and the commanded feedrate will
remain unchanged.
302 (M) FEED ACCEL MEDIUM
Supports the motion control feature. This is the acceleration that applies to feed motion in encoder steps per
second squared selected by Setting 191 or the G187 command. For vertical mills, 1/2 of the value of Parameter 7
is a good starting point.
303 (M) FEED T CONST MEDIUM
Supports the motion control feature. It is the base 2 exponent of the feed time constant in milliseconds when
Medium smoothness is selected by Setting 191 or the G187 command.
304 (L) SPINDLE BRAKE DELAY
Amount of time (in milliseconds) to wait for the main spindle brake to unclamp when spindle speed has been
commanded, and also the amount of time to wait after the main spindle has been commanded to stop before
clamping it.
304 (M) SPIGOT REV POS DLY
Length of a delay (units are ms) when moving the coolant spigot in reverse. This parameter should be set to zero
on all machines.
305 (L) SERVO PO BRK DLY
Time (in milliseconds) that the control should wait after turning off the Hyd Pump Enable relay (which will activate
the brake) before turning off power to the servo motors via the MOCON. This is intended to allow time for the brake
to engage.
305 (M) SERVO PO BRK DLY
The SRV PO (Servo Power On) discrete output is used to engage and disengage an axis brake. This parameter is
used to specify a time in milliseconds that the control should wait after activating the SRV PO output and turning off
power to the servo motors via the MOCON. This parameter also specifies the time to wait after deactivating the
SRV PO output and reactivating the servo motors via the MOCON.
306 (M) POCKET UP/DN DELAY
Supports the side-mount tool changers. It specifies the time allowed (in milliseconds) for the tool pocket to be
raised or lowered. If the pocket does not move to its commanded position within the time allowed by this parameter
and by Parameter 62, Alarm 626, Tool Pocket Slide Error is generated.
307 (M) POCKT UN/LOCK DELAY
Supports side-mount tool changers. It specifies the time allowed (in milliseconds) to lock or unlock a tool pocket.
For mills without a side-mount tool changer, this parameter should be set to 0.
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Parameters
209
308 (M) ARM ROTATE TIME
Supports the side-mount tool changers. It specifies the time allowed (in milliseconds) for the arm to rotate to the
next position. The positions are, Clamp, Unclamp, and Origin. If the arm does not move to the commanded position
within the allowed time, Alarm 622, Tool Arm Fault is generated. For mills without a side-mount tool changer, this
parameter should be set to 0.
309 (M) ARM START TIMEOUT
Supports side-mount tool changers. It specifies time allowed for the tool changer to start only. If the arm has not
moved after the allowed time, Alarm 627, ATC Arm Position Timeout is generated. Units are milliseconds.
310 (M) CAM LOCK DELAY
Supports side-mount tool changers. It specifies the time allowed (in milliseconds) to lock the cam by pushing the
shot pin in, or to unlock the cam by pulling the shot pin out. If the shot pin has not moved to its commanded
position within the allowed time, Alarm 625, Invalid TC Start Condition is generated.
311 (M) ARM BUMP TIME/DEG
Supports side-mount tool changers. During tool change recovery, the arm may be moved a small amount by
pressing the ATC FWD or ATC REV key. Each press of the key will cause the arm motors to run for the amount of
time (in milliseconds) specified by this parameter. For mills without a side-mount tool changer, this parameter
should be set to 0.
For the high speed tool changer, this parameter specifies the number of thousandths of degrees to bump the arm
(i.e., 1000 = 1 deg.)
On horizontal mills with a side-mount tool changer, the arm may be rotated a small amount by pressing the End or
Page Down keys. The shuttle may be moved by pressing the Left Arrow or Right Arrow keys. Each press of the key
causes the motor to run for the amount of time (in milliseconds) specified by this parameter.
312 (M) CAROUSEL BUMP TIME
Supports side-mount tool changers. During tool change recovery, the carousel may be moved a small amount by
pressing the Left Arrow or Right Arrow key. Each press of the key will cause the carousel motors to run for the
amount of time (in milliseconds) specified by this parameter. For mills without a side-mount tool changer, this
parameter should be set to 0.
313 (M) POCKET INCREMENT
Used for the bridge mill. Under normal circumstances it should be set to 1. If, for example, it is set to 2, the control
will only recognize every other pocket; that is, it will treat the tools and pockets as follows:
Tool 1 is in pocket 1
Tool 2 is in pocket 3
Tool 3 is in pocket 5
Tool 4 is in pocket 7 etc...
If this parameter is set to 3, the control will only recognize every third pocket, and so on. It is the operator’s
responsibility to ensure that the total number of pockets in the tool changer is evenly divisible by this
parameter value. If not, the control will pick the wrong pocket after the carousel has exceeded a full revolution.
314 (M) FEED DELTA V MEDIUM
Supports motion control. It is the maximum change in velocity (in encoder steps per millisecond) allowed between
motion steps when Medium smoothness is selected by Setting 191 or the G187 command. The basic value is given
by the formula: (Feed Delta V) = (Feed Accel) times 2 to the power of (Feed T Const) divided by 1 million.
315 (L) COMMON SWITCH 4
0
1
2
3
4
5
210
ALIS M GRPHC - All user defined M codes (such as M50) are ignored when a program is run in graphics mode
if this bit is set to 0. If it is necessary to have graphics recognize such M codes, set this bit to 1.
NO SPIND CAN CYCLE
UNUSED
UNUSED
UNUSED
DOOR OPEN SWITCH - Ensures that when the door is opened automatically, it opens all the way. It is intended
to be used in conjunction with an automatic parts loader. If this bit is set to zero, the control behaves as before.
If this bit is set to 1, the control will look for a second door switch when the door is opened automatically. If the
switch is not found, Alarm 127, Door Fault will be generated.
Parameters
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6
7
8
9
10
11
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
SIMPLE TAILSTOCK - Supports the SL-10 tailstock, which has no encoder. It should be set to 1 only on an
SL-10 with a hydraulic tailstock. It should be set to zero on all other machines.
BRUSHLESS BAR FEEDER - Supports the brushless bar feeder. When it is set to 1, it indicates that a
brushless bar feeder is present.
MINI POWER SUPPLY - Intended for Mini Lathe. When set to zero, control behaves as before. This parameter
bit must be set to 1 on all Mini Lathes. Parameter 294, Min Buss Voltage must be set to zero on all Mini Lathes.
AUTO PARTS LOADER - Indicates that a Haas Lathe APL is installed. When this bit is set to 1, a Commands
screen for the Haas APL is displayed.
ZERO RET ON C ENGAGE - Controls what C-axis does upon engagement. If set to zero, C-axis rapids to zero
upon engagement. When set to 1, C-axis performs a zero return upon engagement. Note that in either case,
spindle is oriented upon C-axis engagement. Note also, to avoid spindle oscillation during movement of C-axis,
spindle is shifted to high gear (on lathes with a gearbox) before engaging C-axis.
SETING 92 ENABLE - Intended to prevent damage to lathes fitted with a pneumatic double-chuck. If Setting
92, Chuck Clamping is switched from O.D. to I.D. or back while the spindle is turning, the chuck is considered
clamped in the opposite direction and will move immediately. A pneumatic double-chuck will be damaged if it is
moved while the spindle is turning. This parameter bit must be set to 1 before Setting 92 can be altered, and
since parameters can only be altered after E-Stop has been pressed, this ensures that the spindle will be at
rest when the bit is altered. It is strongly advised that this bit be returned to zero immediately after use.
SS REV SPIND ENCODR - Reverses sense direction of subspindle encoder
SS VEC DRIVE ENCODR - Enables a second encoder mounted on the subspindle motor and wired into the “C”
axis input of the Mocon. It is required to control the vector algorithm when a lathe’s belts might slip at high load.
SS VEC DRIVE - Must be set to 1 if the machine is equipped with a Haas vector subspindle drive. When set to
1, voltage to the Haas vector drive is displayed in the diagnostics display as DC BUSS. For the TL-15 and
VTC-48, this bit must be set to 1. For all others, it must be set to 0.
SS D:Y SWITCH ENABL (Delta Wye switch enable) - Used for the vector drive. If this switch is set, but bit 19 is
not, winding switching is only done when subspindle is at rest, depending on target speed of the subspindle.
SS DY SWITCH ON FLY (Delta Wye switch on the fly) - Used for vector drive. Enables switching on the fly, as
subspindle motor is accelerating or decelerating through switch point. If bit 18 (SS Vec Drive) is not set, switch
is ignored.
SS IN SPD DC (Subspindle Inverse Speed Deceleration) - When this parameter is set to 1, the subspindle
decelerates faster at lower speeds, resulting in a shorter deceleration time.
SS DISABLE GEARBOX - Disables gearbox functions. For the TL-15 and VTC-48, this bit must be set to 1.
For all others, it must be set to 0.
VERT TURNING CENTER This bit is used for the VTC-48.
SS INVERT GEARBOX - Allows alternate gearbox configuration. Inverts sense of gearbox inputs. Default is 0.
When set to 1, sense of discrete inputs for SP HIG and SP LOW (high and low gear) are inverted.
POWER DISCONN RELAY - This parameter when set to 1, with Parameter 57 (Safety Circ) set to 1, and the
door is opened, I Gain on all the axes is cleared. This feature is intended to be used in conjunction with
customer supplied hardware who require the servo power to be cut when the door is opened.
STATUS RELYS
SS NONINV SPD STOP - Sub-spinlde non-inverted spindle stopped status.
UNUSED
RND5 TRM/TRL
RND5 HANDWHEEL
INTUITIVE PROG SYS - When it is set to 1, the Intuitive Programming System is activated.
315 (M) COMMON SWITCH 4
0
1
2
ALIS M GRPHC - When this bit is set to 0, all user defined M codes (such as M50, normally used to do a pallet
change on a horizontal mill) are ignored when a program is run in graphics mode. If it is necessary to have
graphics recognize such M codes, this bit should be set to 1.
GANTRY
NO X MOVE NEXT TOOL - Horizontal mills only, primarily intended for use on the HS-3. If this bit is set to zero,
it will have no affect. If it is set to one, the X-axis will not move following a Next Tool button press. The reason
for this is because after pressing Next Tool on an HS-1 or HS-2, the spindle, which is mounted on the X-axis, is
moved closer to the operator so the next tool can be manually installed. On an HS-3, the X-axis is on the table
and there is no advantage to moving it. Setting this bit to one will save time.
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Parameters
211
3
4
5
6
7
8
9
10
11
12
13
14
15
16
212
EXTRA-LARGE TOOLS - Specifies that large tools are considered to be extra large, and allows Tool Pocket
table to be set up as shown below. This parameter bit should be set to 1 on all mills with the 50 Taper SideMount Tool Changer. It will enable the control to recognize tools that occupy three pockets. An example of a
tool pocket table with extra large tools:
1–
2L
3–
4–
5L
6–
When this parameter bit is set to 1, the following tool pocket configuration is not allowed (see Alarm 422).
–
L
–
L
–
HIGH SPD MACHINING - Enables the High Speed Machining feature. It requires an unlock code in order to set
the bit to 1. This option requires the Floating Point Co-Processor and Floating Point software. If this option is
turned on when non-floating point software is installed, the High Speed option will have no effect.
FAEMAT SPINDLE - Controls the tool clamp and unclamp sequence for different spindles. This improvement is
intended primarily for the VB-1 bridge mill.
MANUAL TOOL CHANGER - Must be set to 1 when a TM-1 has no tool changer, and zero when it has a tool
changer. When set to 1, M06 will stop the program and display a message requesting the operator to change
tools manually.
RESET STOPS PAL CHG - Enables the Reset button to stop a pallet change. It is intended for use with the
future hard-coded pallet changer macro program. It should be set to zero.
MINI POWER SUPPLY - When Parameter 315, bit 8, Mini Mill is set to 1, the Over Voltage discrete input will
be displayed as P.S. Fault. When it is set to 1:
(a) DC BUSS voltage displayed on the diagnostics screen for a vector drive machine is not displayed.
(b) Conditions that would normally generate Alarm 119, Over Voltage and Alarm 160, Low Voltage will instead
generate Alarm 292, 320V Power Supply Fault. This alarm will be added to the alarm history only after a 1
second delay, to prevent false 292 alarms being added to the alarm history at the moment power is turned off.
This parameter bit must be set to 1 on all Mini Mills.
DOOR OPEN SWITCH - Allows the software to work with an optional door-open switch. This bit should be set
to 1 on machines fitted with the second door switch. If this bit is set to 1, the control will look for a second door
switch when the door is opened automatically to the fully open position. If the switch is not found, Alarm 238,
Door Fault will be generated. If this bit is set to zero, the control behaves as before.
PALLET HARDCODE - Supports the hard-coded APC pallet changer function. It must be set to 1 when an APC
is present that is wired for two APC door switches. On all other machines, it must be set to 0.
M50 CLOSES DOOR - The MDC-1 pallet changer station auto door closes before an M50 pallet rotate and
opens afterward, provided this parameter bit is set to 1. If the bit is set to zero, a flashing message directing the
operator to close the pallet changer door (manually or by pushing the Part Ready button) will be displayed and
the pallet change will not occur until the door is closed. Note that the door will not close automatically if the
Pallet Schedule Table is used to schedule a pallet.
MANUAL JOG TRM/TRL - Enables the manual jog feature for the Tool Room Mill’s handwheels.
SAFTY SWITCH - When set to zero, the control behaves as normal. When it is set to 1, the Toolroom Mill’s
safety switch must be pressed by the operator for controlled motion to start or continue.
FOURTH AXIS - Prevents unauthorized use of the 4th (A) axis. It can only be set to 1 with a magic code. When
it is set to zero, it prevents the user from altering Setting 30 and prevents the user from zeroing Parameter 43,
Disabled bit. When this parameter bit is changed to zero, Setting 30 will be returned to Off and Parameter 43,
Disabled bit will be set to 1.
FIFTH AXIS - Prevents unauthorized use of the 5th (B) axis. It can only be set to 1 with a magic code. When
set to zero, it prevents the user from altering Setting 78 and from zeroing the Parameter 151, Disabled bit.
When this parameter bit is changed to zero, Setting 78 will be returned to Off and the Parameter 151, Disabled
bit will be set to 1. Note that when Parameter 209, Horizontal is set to 1, Setting 78 is unavailable and not
displayed because the B-axis is used for the tool changer.
TOOL CAGE DOOR - Supports the machines fitted with the side-mount tool changer cage door.
Parameters
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17 VIBRATION SENSOR - Enables the vibration sensor. When it is set to 1, the output from the sensor will be
converted to Gs and displayed on the Current Commands Tool Load screen. When this parameter is set to
zero, No Sensor will be displayed instead.
18 HIGH Z TOOL CHANGER - Setting this parameter to 1 and commanding either a G28 move of all the axes, or
pressing Second Home causes the Z-axis to move to the maximum position prior to moving to machine zero.
When set to zero, the Z-axis moves directly to machine zero. Previously, the Z-axis moved directly to machine
zero regardless of this parameter bit. This enhancement was made primarily for the Gantry Router mills.
19 PAL LOAD AUTODOOR - Tells control pallet changer has automatic door, as opposed to operator Auto Door.
20 MAP 4TH AXIS - Enables the Rotary Index button at the load station and prevents movement of the rotary
outside of the work area (i.e., rotary mounted on the outside pallet position).
21 INV PAL DOOR SWITCH - Must be set to 1 on the MDC1 and zero on all other machines. This bit indicates the
polarity of the pallet changer door closed switch.
22 PAL RECIEVER SWITCH - Supports the APC pallet receiver position switch. When the switch is present, the
bit must be set to 1; otherwise, it must be set to zero.
23 RAPID -> HS FEED - Enables straight line rapid moves. Normally, during a rapid move of two or more axes,
the axis with the shorter distance will finish first. When this parameter is set to 1, the control will treat rapid
moves as high-speed feeds, and all axes will complete their motion at the same time.
25 POWER DICONN RELAY - When set to zero, the machine behaves as before. When set to 1, Parameter 57,
Safety Circ is set to 1, and the door is opened, I Gain on all axes will be cleared. With the door closed and
power to the servos restored, the I Gain values will be restored. This is intended for use in conjunction with
special hardware by customers who require the servo power to be cut when the door is opened.
26 STATUS RELAYS - Supports Machine Data Collection. The default value for all machines is zero.
27 UNUSED
28 ADVANCED TOOL MGMT. - Allows the user to specify groups of tools. When the life of a tool (based on feed
time, total time, usage, number of holes, tool load, or vibration) has expired, the control will automatically use
another tool from the same group. When all the tools from a group are used up, the control will alarm.
29 RND5 TRM/TRL - This parameter is intended for tool room machines. When it is zero, the machine behaves as
before. When set to 1, all X and Z position displays are rounded to .0005. This does not affect programming.
30 RND5 HANDWHEEL - This parameter is intended for tool room machines. When zero, the machine behaves
as before. When set to 1, and the user is jogging an axis using the manual handle-wheels, the position displays
will be rounded to .0005. This will not affect the operation of the standard jog handle or programming.
31 INTUITIVE PROG SYS - When set to 1, the Intuitive Programming System is activated.
316 (L) MEASURE BAR RATE
Supports the Haas Servo Bar 300 bar feeder. It is the rate at which the bars are measured. Units are inches*1000.
316 (M) APC PAL. CLAMP TIME
Time required to clamp the APC pallet to the receiver. Units are milliseconds.
317 (L) MEASURE BAR INC
Supports Haas Servo Bar 300 bar feeder. This is increment used for bar measurement. Units are inches*10,000
317 (M) APC UNCLAMP TIME
Time required to unclamp the APC pallet from the receiver. Units are milliseconds.
318 (L) GEAR MOTOR TIMEOUT
Supports Haas Servo Bar 300 bar feeder. This is timeout value for gearmotor operations. Units are in milliseconds.
318 (M) APC PAL. CHAIN TIME
Time required to cycle the chain. It should be set to 8000. Units are milliseconds.
319 (L) MAX RETRACT POS
Supports Haas Servo Bar 300 bar feeder. This is maximum V axis retracted position. Units are inches * 10000.
319 (M) APC DOOR CLOSE TIME
Time required to close the door. It should be set to 6000. Units are milliseconds.
320 (L) MIN RETRACT DIST
Supports Haas Servo Bar 300 bar feeder. This is the minimum space between bar and push rod when retracted.
Units are inches*10,000
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Parameters
213
320 (M) RP DRAWBAR DOWN
Time required for the drawbar to move down. Units are milliseconds.
321 (L) PUSH ROD ZERO POS
Supports the Haas Servo Bar 300 bar feeder. This is the V axis position for loading and unloading a bar. Units are
in inches*10,000.
321 (M) RP DRAWBAR UP TIME
Time required for the drawbar to move up. Units are milliseconds.
322 (L) GEARMOTOR BUMP TIME
Supports Haas Servo Bar 300 bar feeder. Gear motor run time for bump and internal functions. Units are in
milliseconds.
323 (L) PUSH RATE
Supports the Haas Servo Bar 300 bar feeder. This is the rate at which the last 1/4 inch of feed is done. Units are
inches per minute*1000.
324 (L) GEAR MOTOR SETTLE
Supports the Haas Servo Bar 300 bar feeder. This is the minimum dwell time for reversing the gear motor direction.
Units are in milliseconds.
325 (L) STANDARD BAR LEN
Supports Haas Servo Bar 300 bar feeder. This is length of bar for G105 Q5. Units are in inches per minute*1000.
326 (L) G5 DECELERATION
Supports the G05 Fine Spindle Ctrl feature. This is the rate at which to decelerate the spindle during G5. Units are
in encoder steps per second. It should be set to 15000.
327 X SCALES PER INCH
Used on machines equipped with linear scales.
328 Y SCALES PER INCH
Used on machines equipped with linear scales.
329 Z SCALES PER INCH
Used on machines equipped with linear scales.
330 A SCALES PER INCH
Used on machines equipped with linear scales.
331 B SCALES PER INCH
Used on machines equipped with linear scales.
333 X SCALES PER REV
Used on machines equipped with linear scales.
334 Y SCALES PER REV
Used on machines equipped with linear scales.
335 Z SCALES PER REV
Used on machines equipped with linear scales.
336 A SCALES PER REV
Used on machines equipped with linear scales.
337 B SCALES PER REV
Used on machines equipped with linear scales.
339 X SPINDLE THERM COEF.
Supports Spindle Head Thermal Compensation feature.
340 Y SPINDLE THERM COEF.
See Parameter 339 for description.
214
Parameters
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341 Z SPINDLE THERM COEF.
See Parameter 339 for description.
342 A SPINDLE THERM COEF.
See Parameter 339 for description.
343 B SPINDLE THERM COEF.
See Parameter 339 for description.
345 X SPINDLE THERM T.C.
Supports Spindle Head Thermal Compensation feature.
346 Y SPINDLE THERM T.C.
See Parameter 345 for description.
347 Z SPINDLE THERM T.C.
See Parameter 345 for description.
348 A SPINDLE THERM T.C.
See Parameter 345 for description.
349 B SPINDLE THERM T.C.
See Parameter 345 for description.
351 THRML SENSOR OFFSET
Used for Ballscrew Thermal Compensation via a temperature sensor attached to the ball nut.
352 RELAY BANK SELECT
Allows the user to change which bank of relays is to be used (Parameter 209, bit 23, MCD RLY BRD assumes that
relay bank one is to be used). It may be set to a number from 0 to 3 (inclusive). M codes M21 through M28 will be
switched to the selected bank. This parameter requires a revision “S” I/O board. If a previous board is installed
(without the additional banks of relays), this parameter should be set to zero.
Bank #
0
1
2
3
Relay Location
I/O PCB
I/O PCB
1st M-code PCB
2nd M-code PCB
Description
Internal machine functions.
User relay outputs (some may be used for internal functions).
8M option. 8 additional user outputs.
Typically used for built in options such as, side-mount tool changer, etc.
353 (L) MAX SUBSPINDLE RPM
Maximum rpm available to the subspindle, and works in conjunction with parameters 570 and 571.
354 (L) U SWITCH A
See Parameter 1 for description.
379 (M) U TOOL CHANGE OFFSET
Offset distance from operator door closed switch to the desired closed position (units are encoder
steps). This is always a positive number.
390 (L) V SWITCH A
See Parameter 1 for description.
426 (L) W SWITCH A
See Parameter 1 for description.
430 (M) W RATIO (STEPS/UNIT)
For the EC-300 and MDC-1, this parameter is set to 57344 and controls the rotation of the pallet. When a pallet
change is performed, pallet rotates 180 degrees. It is essential this parameter is checked after a software upgrade
498 (L) C SWITCH A
See Parameter 1 for description.
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Parameters
215
570 (L) SUBSPIN ENC ST/REV
Sets the number of encoder steps per revolution of the subspindle encoder.
571 (L) SUBSPINDLE ST/REV
Sets the number of encoder steps per revolution of the subspindle. It only applies to the subspindle rigid
tapping option.
572 (L) C AXIS ENG TIMEOUT
Specifies the C-axis timeout value for seeing the engaged switch on engagement or the disengaged switch on
disengage. The units are in milliseconds and it should be set to 1000 for all lathes.
573 (L) C AXIS ENG DELAY 1
Specifies C-axis delay after spindle orientation and before engagement. Its purpose is to let the spindle orientation
settle. The units are milliseconds and it should be set to 250 for all lathes.
574 (L) C AXIS ENG DELAY 2
Specifies the C-axis delay after engagement before the motion completes. Its purpose is to allow the C-axis
engagement to come up to pressure. Units are milliseconds and should be set to 250 for all lathes.
575 (L) THRD PTCH FACT PPM
Allows the customer to factor feedrate on G32, G76 and G92 threading as necessary for particular applications.
The units are ppm (parts per million.) This parameter can be adjusted, for example, increasing the value by 100
advances the thread lead by 1 ten-thousandth of an inch per inch. This parameter is internally limited to 1000.
576 (L) MAX SS RPM LOW GEAR
Max subspindle rpm in low gear. This is maximum rpm available to subspindle. When this speed is programmed,
the D-to-A output is +10V and subspindle drive must be calibrated to provide this. Gear ratio low to high is 4.1:1.
577 (L) SS ORIENT OFFSET
Subspindle Orientation Offset. It is used to orient the subspindle properly anytime it needs to be locked, such as
prior to a tool change, or orient subspindle command. This is used for the vector drive and the value is detemined
at assembly time. The Subspindle position is displayed on the Pos-Raw Dat screen just to the right of System Time.
578 (L) SS HIGH GR MIN SPD
Command speed used to rotate subspindle motor when orienting subspindle in high gear. Units are maximum
subspindle rpm divided by 4096.
579 (L) SS LOW GR MIN SPD
Command speed used to rotate subspindle motor when orienting subspindle in low gear. Units are maximum
subspindle rpm divided by 4096.
580 (L) TS HYD RETRACT TIME
Added for the SL-10 hydraulic no-encoder tailstock. It specifies the amount of time (in ms) that the tailstock center
will be commanded to retract as a result of commanding an M22 and only takes affect when Simple TS is set to 1.
581 (L) APL FLIPPER SETTLE
Supports the Haas Lathe APL. It specifies the rotational time for the gripper after the switch is encountered and
should be set to 100. Units are milliseconds.
582 (L) APL FLIPPER TIME OT
Supports the Haas Lathe APL. Units are milliseconds.
583 (L) APL MAX POSITIONS
Supports the Haas Lathe APL. It specifies the number of switch positions in rotation.
584 (L) APL GRIP OPEN TIME
Supports Haas Lathe APL. It specifies maximum allowable time for opening the gripper. Units are milliseconds.
585 (L) APL GRIP CLOSE TIME
Supports the Haas Lathe APL. It specifies the maximum allowable time for closing the gripper and should be set to
500. Units are milliseconds.
216
Parameters
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586 MAX DOOR OPN SP RPM
Maximum allowable spindle rpm after the door has been opened manually or commanded open by an M80. If the
door is open when the spindle is commanded to turn faster than this value, or already turning faster than this value
when the door is opened, Alarm 230, Door Open will be generated.
587 (L) EXTENDED PUSH TIME
Supports bar feeder pusher rod which is mounted on the bar feeder trolley (for bar feeders with 1-foot extension
option). The units are 50th’s of a second. It causes a delay of the amount of time specified to enable the pusher rod
to full extend before the trolley begins to travel back to the home position. This parameter should be set to 150 (3
seconds) on the SL-30 Big Bore and SL-40 only. For all other lathes, it should be set to zero. On older lathes
without the pusher rod, this parameter will have no effect. Note also that with this change, the I/O board discrete
output has been changed from #23 to #1.
588 X ENC. SCALE FACTOR
This axis parameter works in place of the axis parameters SCALE/X LO and SCALE/X HI. If SCALE FACT/X is set
to 1, the scale ratio is determined by SCALE/X LO and SCALE/X HI as follows:
HI LO
0 0 3
0 1 5
1 0 7
1 1 9
If, however, SCALE FACT/X is set to zero, the value of ENC. SCALE FACTOR is used for the scale ratio instead.
Note that any value outside the range of 1 to 100 will be ignored and the scale ratio will remain unaffected. Note
also that currently, these parameters are intended for use only on rotary axes (A and B).
589 Y ENC. SCALE FACTOR
See Parameter 588 for description.
590 Z ENC. SCALE FACTOR
See Parameter 588 for description.
591 A ENC. SCALE FACTOR
See Parameter 588 for description.
592 B ENC. SCALE FACTOR
See Parameter 588 for description.
593 C ENC. SCALE FACTOR
See Parameter 588 for description.
594 U ENC. SCALE FACTOR
See Parameter 588 for description.
595 V ENC. SCALE FACTOR
See Parameter 588 for description.
596 W ENC. SCALE FACTOR
See Parameter 588 for description.
600 PEAK SPIN. PWR-KW
Supports the spindle kilowatt (KW) load display that appears on the current commands page, next to the spindle
load percentage. It should be set to the peak power output in KW for the spindle motor.
601 (M) TOOL CHANGE DELAY
On a mill where the operator must be warned that a running program doing a tool change (no enclosure) it beeps
and delays for the duration specified by Parameter 601. If Parameter 601 is set to zero, there will be no beep or
delay. If the operator changes tools by pressing buttons on any kind of tool changer, there will be no beep or delay.
If the machine has a manual tool changer and M06 is commanded from a running program, there will be no beep or
delay. The control will stop and prompt the operator to manually insert the tool.
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Parameters
217
602 (L) CHUCK FACE DISTANCE
Supports the brushless bar feeder. When executing G105 Q4, a new bar is loaded, measured and pushed through
the spindle and halted just before the chuck face. This parameter specifies the distance (in 1/10000 inch) that
should be left between the bar and the chuck face. It should be set as follows:
Mini-Lathe 440000
SL-10 500000
SL-20 540000
SL-30 540000
SL-30BB 650000
SL-40 650000
TL-15 540000
605 (M) PALLET CHANGER TYPE
Defines the type of pallet changer on the machine. Also see Parameter 606
606 (M) NUMBER OF PALLETS
Number of pallets present in the installed pallet changer. Also see Parameter 605.
Pallet Changer
Parameter 605
Parameter 606
APC (Pallet Ready button)
0
2
APC (Schedule Pallet Buttons)
2
2
Rotary Pallet Changer (HS 1/2)
1
2
Quad APC
2
4
MDC-1 / EC300
3
2
EC400
4
2
2 Pallet APC
2
2
611 (L) BAR FEEDER TYPE
Supports the Bar 100 Air-Driven bar feeder. It should be set to 2 on all lathes fitted with the Bar 100, lathes without
the Bar 100 should be set to zero.
612 (M) SPIGOT TYPE
Supports programmable coolant spigot. Type 0 uses peaks of the spigot fan for positioning. Type 1 uses the peaks
and valleys of the spigot fan for positioning. All other values are treated the same as type 0. Note that if Parameter
253, Spigot Fwd Pos Dly and Parameter 304, Spigot Rev Pos Dly are non-zero, type 1 processing uses those
values; otherwise, the type 1 processing calculates the delay value for positioning from Parameters 613 and 614.
613 (M) SPG FWD MTR DLY (MS)
Supports the programmable coolant spigot. It specifies the delay time in ms from the moment the spigot motor is
turned off, to the moment the spigot is stopped in the forward direction.
614 (M) SPG REV MTR DLY (MS)
Supports the programmable coolant spigot. It specifies the delay time in ms from the moment the spigot motor is
turned off, to the moment the spigot is stopped in the reverse direction.
616 (L) SS LUBE CYCLE TIME
Supports the VTC-48. It controls the subspindle lubrication in the same manner as Parameter 117. The units are
50ths of a second. If a subspindle low lube condition is found, Alarm 121, Low Lube or Low Pressure is generated
and both the main spindle and the subspindle are shut down. It should be set to 108000.
617 (L) SS SPIN.FAN OFF DEL
Supports the VTC-48. It specifies the time that the subspindle fan should continue to run after the subspindle has
stopped. The units are 1/1000 of a second.
618 (M) TC CAROUSEL TYPE
This parameter supports the Servo Side Mount Tool Changer. It should be set to 1 for the standard DC motor tool
carousel and 2 for the servo tool carousel.
619 (L) PRE GEAR CHANGE DLY
Delay time (in milliseconds) after the spindle has been commanded to stop and before the solenoid for the gear
change is commanded to start. It should be set to 100 on all machines.
218
Parameters
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620 (M) X PLUS TRAVEL LIMIT
Note that only Parameters 623 and 624 for the A and B axes are intended to be used, and only on Trunnion Mills
(VF5TR and VF6TR) where it is necessary to place the home switch in the middle of the travel range (in order to
keep the table flat when at the home position) and limit movement to +/-120 degrees. The Plus Travel Limit
parameter is used to store the number of encoder steps a rotary can take in the plus direction from its current home
position. The control takes into account these updated travel limits for jog and feed conditions. For example, if the
steps/unit on the A-axis is 4000 and Plus Travel Limit is set to 20000, the control allows the A rotary to go up to +5
degrees before stopping (assuming that encoder scale factor is set to zero). The same applies for the B-axis. This
feature enables the home switch to be moved to any desired location so a rotary can make proper orientation
during zero return. Note that Parameter 591 and 592, AB Enc. Scale Factor is applicable in determining the limits.
If this parameter is set to 3, in the above example the rotary will be allowed to go up to +15 degrees due to
encoder scaling. Similar results will be achieved when the SCALE FACT/X bit is set to 1 (based on SCALE/X
LO and SCALE/X HI bits = 0). To deactivate this feature on any axis, the Plus Travel Limit should be set to zero.
621 (M) Y PLUS TRAVEL LIMIT
See Parameter 620.
622 (M) Z PLUS TRAVEL LIMIT
See Parameter 620.
623 (M) A PLUS TRAVEL LIMIT
See Parameter 620.
624 (M) B PLUS TRAVEL LIMIT
See Parameter 620.
626 (M) U PLUS TRAVEL LIMIT
See Parameter 620.
627 (M) V PLUS TRAVEL LIMIT
See Parameter 620.
628 (M) W PLUS TRAVEL LIMIT
See Parameter 620.
629 (M) Sp PLUS TRAVEL LIMIT
See Parameter 620.
630 (M) Tt PLUS TRAVEL LIMIT
See Parameter 620.
632 (L) X AXIS MOCON CHANNEL
Enables each axis to be mapped to a particular MOCON channel.
633 (L) Y AXIS MOCON CHANNEL
Same as Parameter 632. Set to 7 on machines originally shipped with 5.02 and later software.
634 (L) Z AXIS MOCON CHANNEL
Same as Parameter 632 Set to 2 on 5.02 and later software.
635 (L) A AXIS MOCON CHANNEL
Same as Parameter 632 Set to 3 on 5.02 and later software.
636 (L) B AXIS MOCON CHANNEL
Same as Parameter 632 Set to 4 on 5.02 and later software.
637 (L) C AXIS MOCON CHANNEL
Same as Parameter 632 Set to 5 on 5.02 and later software.
638 (L) U AXIS MOCON CHANNEL
Same as Parameter 632 Set to 6 on 5.02 and later software.
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Parameters
219
639 (L) V AXIS MOCON CHANNEL
Same as Parameter 632 Set to 1 on machines originally shipped with 5.02 and later software.
640 (L) W AXIS MOCON CHANNEL
Same as Parameter 632 Set to 8 on 5.02 and later software.
641 (L) Sp AXIS MOCON CHANNEL
Same as Parameter 632 Set to 9 on 5.02 and later software.
642 (L) Tt AXIS MOCON CHANNEL
Same as Parameter 632 Set to 10 on 5.02 and later software.
643 (L) Ss AXIS MOCON CHANNEL
Same as Parameter 632 Set to 11 on 5.02 and later software.
644 (M) X INDEXER INCREMENT
Note that only Parameters 647 and 648 for the A and B axes are intended to be used, and only on Horizontal Mills
fitted with a Rotary Indexer. The Rotary Indexer is a device that holds a part to be machined and rotates in onedegree increments. It can rotate only in rapid motion (G00), it cannot rotate in a feed motion (G01). It can be jogged
by pressing a jog button, or with a jog handle. Before it can be rotated, air is applied to lift the indexer from its
clamped position. The message, A UNCLMP (for example) will appear at the bottom of the screen, and remain as
long as the rotary indexer is in the up position. When the commanded position is reached, the indexer automatically
moves forward or backward to the closest proper locking angle, then settle into its clamped position.The locking
angle is computed from the Indexer Increment parameter which is in units of one-thousandth of a degree. For
example, if the A-axis Indexer Increment parameter is set to 1000 (1.0 degrees) and the A-axis is jogged to
25.5 degrees, when the operator leaves jog mode, the indexer will automatically settle and clamp itself at 26.0
degrees. If the parameter contains a 1 (one-thousandth of a degree) or less, the rotary indexer feature is turned off
and a regular rotary platform is assumed.
645 (M) Y INDEXER INCREMENT
See Parameter 644.
646 (M) Z INDEXER INCREMENT
See Parameter 644.
647 (M) A INDEXER INCREMENTt
See Parameter 644.
648 (M) B INDEXER INCREMENT
See Parameter 644.
650 (M) U INDEXER INCREMENT
See Parameter 644.
651 (M) V INDEXER INCREMENT
See Parameter 644.
652 (M) W INDEXER INCREMENT
See Parameter 644.
653 (M) Sp INDEXER INCREMENT
See Parameter 644.
654 (M) Tt INDEXER INCREMENT
See Parameter 644.
659 (M) A INDEXER DWN TIMEOUT
Supports indexer rotary table. It specifies time (in ms) allowed for seeking indexer Down-switch. If switch is not
detected within allowed time, Alarm 960, Indexer Switch not Found in Time is generated. When it is set to zero, the
feature is bypassed. Parameter 69, Air Brake Delay is used as allowed time for seeking the Up-switch. If switch
is not detected within the allowed time, Alarm 925, A Indexer is not Fully in the Up Position is generated.
220
Parameters
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680 – 689 (M) LEAD COMPENS SHIFT
Amount of shift needed for proper indexing into the Lead Screw Compensation table. Note that these parameters
are very similar to Parameter 58. The difference is that these parameters hold a non-zero value, they take
precedence over the general Parameter 58. For example:
Param 58 [LEAD COMPENS SHIFT] = 14 (General Parameter)
Param 683 [A LEAD COMPENS SHIFT] = 12 (Axis Parameter A)
Param 684 [B LEAD COMPENS SHIFT] = 0 (Axis Parameter B)
In the above example, the A-axis will take its lead screw shift value from Parameter 683 since it is a non-zero
value, but the B-axis will get its shift value from Parameter 58 (NOT from Parameter 684). Determining the
appropriate value for lead screw compensation: assume Steps Per Unit on A is 2800 (Parameter 47).
a) Take steps per unit and multiply by 360 (unscaled) 2800 x 360 = 1008000.
b) Apply Enc. scale factor (if present). For example, with a scale factor set to 3, we have: (1008000/3) = 336000.
c) Determine smallest number ‘n’ that holds inequality: 336000/(2^n) < 256 => 336000/(2^11) < 256; so n = 11
d) Therefore, set Parameter 683 to 11.
671 (M) A INDEXER DOWN SETTLE
Supports the indexer rotary table. It specifies the amount of time (in ms) the machine is allowed to settle after
detecting the indexer Down-switch. If the parameter is zero, the feature is backward compatible.
692 (L) STEADY REST OUTPUT
Supports the steady rest option. If a lathe has the option, it must be set to the output relay number that activates
the clamping mechanism. This number can be 32 through 55 for relays #1132 through #1155, respectively. For
lathes without the steady rest option, it must be zero.
693 (L) STEADY REST INPUT
Supports the steady rest option. If a lathe has the option and a foot pedal for the steady rest, it must be set to the
input relay number for the foot pedal switch. This number can be 1 through 49 for relays #1101 through #1049,
respectively. For lathes without a steady rest foot pedal, this parameter should be zero.
696 (M) MOM TYPE
Turns the MOM option ON.
697 (M) MOM PURGE SIZE (MS)
Sets pump ON time (in milliseconds).
698 MOM PURGE OFF TIME
Sets pump off time.
699 MOM POWER UP PURGE
Sets number of purge cycles on power-up restart.
701
LIVE TOOLING AXIS
This parameter selects which MOCON channel the Live Tooling axis is used on. The value is 0-11, where 0=X-axis,
1=Y axis, etc.
0 - MOCON ONE X P6
3 - MOCON ONE A P9
6 - MOCON TWO X P6
9 - MOCON TWO A P9
1 - MOCON ONE Y P7
4 - MOCON ONE B P30
7 - MOCON TWO Y P7
10 - MOCON TWO B P39
2 - MOCON ONE Z P8
5 - MOCON ONE C P31
8 - MOCON TWO Z P8
11 - MOCON TWO C P310
702 SHUTTLE MIN TIME IN
Minimum time for the shuttle to reach the In position.
704 SMTC2 UNCLAMP POS
Supports the high speed tool changer. It specifies the absolute position in degrees *1000 which the TT axis will
stop at in order to unclamp the tool.
705 SMTC2 CLAMP POS
Supports the high speed tool changer. It specifies the absolute position in degrees *1000 which the TT axis will
stop at in order to clamp the tool.
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Parameters
221
708 PALLET CHANGER AXIS
Specifies the MOCON channel of the MDC-1 and EC-300 pallet changer. It enables both the servo axis pallet
changer and the Super SMTC tool changer to operate on the same machine. On an MDC-1 with a single MOCON
board, this parameter must be set to 4. On an MDC-1 or EC-300 with two MOCON boards, this parameter must
be set to 8. On all other machines, this parameter must be set to 0. Note also that when set to 4, B-axis parameters
are used to control the pallet changer and the message “Use Tt Params” is displayed. When this parameter is set
to 8, the W-axis parameters are used to control the pallet changer.
709 SMTC DR OUTPUT RELY
Output relay that should be activated for the tool changer door. Set to 39 for the EC-300. Set to 1 for the EC-400.
Set to 26 for the HS series mills. Set to zero for all other mills without a tool changer door.
710 (L) TOOL CHANGER TYPE
Supports the lathe tool turrets. Set this parameter to 2 on lathes fitted with the 4-tool turret, set to 3 for the 8-tool
turret (Note that for the 8-tool turret, parameter 65 Number of Tools must be set to 8. For all other lathes, it should
be set to 1.).
710 (M) TOOL CHANGER TYPE
Type of tool changer installed on machine. If this parameter is set to zero, the control automatically resets it based
upon the parameters which previously specified the tool changer type. The following types are recognized:
1 Generic Geneva or umbrella type - This is the default.
2 Horizontal type using W-axis
3 Horizontal type using B-axis
4 TT-4 Lathe 4-position tool turret
5 Generic Vertical Side-Mount Tool Changer (VSMTC)
6 Super2 VSMTC, using TT-axis
7 Chain Type
8 Mori Side-Mount Tool Changer
9 Manual Tool Changer
711 (M) POCKET UP SETTLE
Supports a vertical mill side-mount tool changer. It specifies the amount of time, in 50ths of a second, a carousel is
to wait after a tool change before it is allowed to move.
712 VD/MINI P.S. TYPE
This parameter specifies the Vector Drive or Mini Power supply type.
715 COLOR MESSAGE
Used to change color of text messages displayed at bottom of an LCD monitor. The color chart can be displayed in
Debug mode. Access Curnt Comands screen and page up. Values from 0 to 255 can be used:
Black: 0
Brown: 3, 4, 11, 12, 19, 20
Red:
5, 6, 13, 143
Orange: 7, 15, 23
Yellow: 30, 31, 39, 55, 63
Pink:
95, 103, 111, 119, 159, 167, 175, 183
Purple: 67, 75, 77, 83, 140, 141, 198, 215
Blue:
64, 88, 210, 248
Green: 24, 40, 56, 104, 120
716 COLOR CMD POSITION
Changes the color of the positions text displayed on the Current Commands page on an LCD monitor. See color
values listed for Parameter 715.
717 COLOR CMD G-CODE
Changes the color of the active G and M code text displayed on the Current Commands page on an LCD monitor.
See color values listed for Parameter 715.
718 COLOR CMD AXES LOAD
Changes the color of the axis load text displayed on the Current Commands page on an LCD monitor. See color
values listed for Parameter 715.
719 COLOR CMD BOLD TEXT
Changes the color of the large feed and speed text displayed on the Current Commands page on an LCD monitor.
See color values listed for Parameter 715.
222
Parameters
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720 COLOR OVERRIDE
Changes the color of the spindle and axis override text displayed on the Current Commands page on an LCD
monitor. See color values listed for Parameter 715.
721 (M) ‘RUNNING’ RELAY
Supports Machine Data Collection feature which specifies output relay to be turned on when machine is in Running
mode. This only works when set to 32 or larger, specifies an actual relay, and Parameter 315, bit 26, Status Relays
is set to zero. If Single Block is activated while machine is running, relay may not turn off at end of current block.
726 SERVO DR SAFE CURNT
The maximum current allowed when door has reached safe region specified by parameter 827 SERVO DR SAFE
ZONE before coming to the closed position. The units are a percentage of the maximum current for the axis amplifier.
727 (M) APC CHAIN MIN TIME
Defines the time to wait before some switch fault checks are to begin. It should be set to 3000 on all APC mills and
zero on all others. The units are milliseconds.
728 (L) Peak Sub SP PWR KW
Used to calculate subspindle load, which is displayed as SS LOAD on the Current Commands screen.
730 PWR FAULT THRESHOLD
731 PWR FAULT MAX TIME
Parameters 730 and 731 support the optional Power Failure Detect Module. Parameter 730, Pwr Fault Threshold
units are an analog to digital value. Parameter 731, Pwr Fault Max Time units are millisecond/20. If the Power
Failure Detection Module is not installed, Parameters 730 and 731 should both be set to zero.
732 (M) IPS PROBE
The operator can use the intuitive probe screens, on a Tool Room mill, with the IPS feature activated, a probe, and
this parameter set to 1. These screens (displays) are within the setup tab, and are used to calibrate both the work
and tool probe. The user can probe the length and diameter of the tools during set up. This feature allows probing
of the work piece to set up the work zero offset. Refer to Engineering Document ES0566 - Intuitive Probing.
733 (M) APC AIR BLAST RELAY
Defines output relay that turns on the air blast on the EC-300 and MDC-500. Set to 39 for the Mill Drill Center and
EC-300, or zero for all other mills.
734 INPUT MASK (Used for the Office Lathes)
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
TOOL TURRET UNLOCKD
TOOL TURRET LOCKED
C AXIS DISENGAGED
SPARE
C AXIS ENGAGED
SPINDLE HIGH GEAR
SPINDLE LOW GEAR
EMERGENCY STOP
DOOR SWITCH
M-CODE FINISH
OVERVOLTAGE
LOW AIR PRESSURE
LOW LUBE PRESSURE
REGEN OVERHEAT
LOW TRANS OIL PRESS
SPARE
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16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
Parameters
SPINDLE LOCK
SPINDLE FAULT
SPINDLE STOPPED
SPINDLE AT SPEED
LOW HYDRAULIC PRESS
TAILSTOCK FOOT SW
PROBE NOT HOME
SPARE
TOOL UNCLAMP REMOTE
SPARE
BRFEED EOB/SB LB SW
BRFEED Flt/SB PR SW
GROUND FAULT
G31 BLOCK SKIP
BRFEED SP LK/SB EOB
CONVEYR OVERCURRENT
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734 INPUT MASK (Used for the Office Mills)
0
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
TOOL CHANGER IN
TOOL CHANGER OUT
TOOL #1 IN POSITION
LOW TSC PRESSURE
TOOL IN POSITION
SPINDLE HIGH GEAR
SPINDLE LOW GEAR
EMERGENCY STOP
DOOR/SAFETY SWITCH
M-CODE FINISH
BUSS PWR FAULT
LOW AIR PRESSURE
LOW LUBE PRESSURE
REGEN. OVERHEAT
DRAWBAR OPEN
DRAWBAR CLOSED
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
SPARE
SPARE
SPARE
SPARE
LOW TRANS OIL PRESS
APC DOOR
APC PIN CLEAR #1
APC PIN CLEAR #2
TOOL UNCLAMP REMOTE
SPARE
APC PALLET #2 HOME
APC PALLET #1 HOME
GROUND FAULT
G31 BLOCK SKIP
SPIGOT POSITION
CONVEYR OVERCURRENT
736 SPINDLE TYPE
Supports Office Mill (OM) and Office Lathe (OL) NSK spindle. On all OM models, this parameter must be set to 2.
On all other mills, it must be set to 1.On OL models (Office Lathes) it must be set to 3. On all other lathes, set to 1.
737 COMMON SWITCH 5
0 LOCK OUT KBD TL CHG: When set to 1, no tool change performed when Power-Up-Restart is pressed. Also,
when Power-Up-Restart, ATC FWD, ATC REV or Next Tool is pressed, TOOL CH LOCKED is displayed.
1 ROTARY INDEX BUTTON: Activates Rotary Index button on the remote control panel of the EC300 and EC1600.
The button controls the A-axis rotary table. Setting 164 is used to set the rotary increment.
3 EXTENDED MEMORY
7 WORKLIGHT VIA SKBIF: Set to 1 when the high voltage switch cable and corresponding high voltage switch in
pendant is replaced by a cable from the SKBIF to a low voltage switch in the pendant. Otherwise, it is set to zero.
8 SPINDLE MOTOR DRIVES C-AXIS: The capability of driving the C-axis with the spindle motor has been added
to the software. To enable this feature the bit must be set to 1.
13 TOOL ARM ON HOME SW: When parameter 710 TOOL CHANGER TYPE is set to 11, this bit enables the
usage of the axis home switch instead of the tool arm origin switch for the tool changer arm axis. This bit should be
set to 1 when the tool changer double arm has the axis home switch as the origin switch. Currently, only the DT-1
has this configuration.
738 FIXTURE CLAMP INPUT
Can be set to discrete input value specifying user’s fixture sensor. Zero deactivates feature. If fixture is unclamped,
running the spindle will generate alarm 973 FIXTURE CLAMP FAILURE and will stop the program and the spindle.
744 COLOR RUNPROG 1
This controls the colors of highlighted text, executed blocks, and remaining blocks in a G-Code program when it is
running or in feed hold. Also see parameter 715.
745 COLOR RUNPROG 2
See Parameter 744
746 COLOR RUNPROG 3
See Parameter 744
749 (M) FEED ACCEL ROUGH
Applied when Rough smoothness is selected. See the definition for parameter 302.
750 (M) FEED T CONST ROUGH
Applied when Rough smoothness is selected. See the definition for parameter 303.
751 (M) FEED DELTA V ROUGH
Applied when Rough smoothness is selected.
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Parameters
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752 (M) FEED ACCEL FINISH
Applied when Finish smoothness is selected. See the definition for parameter 302.
753 (M) FEED T CONST FINISH
Applied when Finish smoothness is selected. See the definition for parameter 303.
754 FEED DELTA V FINISH
Applied when Finish smoothness is selected. See the definition for parameter 314.
761 TC AIR DOOR TYPE
Supports the Air Curtain feature. On machines that have a tool changer fitted with an air curtain, this parameter
should be set to 2. On all other machines, it can be set to zero or 1.
Parameters 762 -772: These parameters allow the axis to position prior to clamping the brake.
762 X Axis Air Brake On Delay
763 Y Axis Air Brake On Delay
764 Z Axis Air Brake On Delay
765 A Axis Air Brake On Delay
766 B Axis Air Brake On Delay
767 C Axis Air Brake On Delay
768 U Axis Air Brake On Delay
769 V Axis Air Brake On Delay
770 W Axis Air Brake On Delay
771 Sp Axis Air Brake On Delay
772 Tt Axis Air Brake On Delay
774-785 ENCODER TYPE
These parameters define the encoder type for each axis. Parameters 774-785 cover X, Y, Z, A, B, C, U, V, W, Sp,
Tt, and Ss axes, respectively.
786-797 COMMAND FIR FILTER
Support finite impulse response (FIR) feature on Coldfire MOCON PC boards.Parameters are 786 to 797 for axes
X, Y, Z, A, B, C, U, V, W, Sp, Lt, Ss in lathes. Parameter limits number of high frequency components in SERVO
command. Parameter specifies degree of COMMAND FIR filter, which acts as low pass filter to smooth out high
frequency component in command profile. This parameter must be set to 0 for current production MOCONS.
798 (M) CONVEY WASHDOWN RLY
This parameter specifies the output relay for the conveyor wash down pump.
799 (M) SHOWER COOLANT RLY
Specifies output relay for shower coolant pump. When installed, it should be set to 32, otherwise it should be zero.
Parameters 801, 802 and 803 are for Haas Air Closer: The pneumatically controlled air closer uses these 3 parameters
and (248, 800) to govern the operation of the system. The parameters are set as follows:
801 (L) CHUCK AIR on DELAY
This parameter is the amount of delay in ms to turn pneumatic air on.
802 (L)CHUCK CLOSER DELAY
This parameter is the amount of delay in ms for the pneumatic mechanism to clamp and unclamp.
803 (L) CHUCK AIR OFF DELAY
This parameter is the amount of time in ms to turn pneumatic air off. There are two more existing parameters that
must be set as follows:
248 Chuck Unclamp RPM. This must be set to 0.
800 Chuck Closer Type. This must be set to 1.
804 (M) TC CAROUSEL AXIS
This parameter supports the Servo Side Mount Tool Changer. It should be set to 6 for the servo tool carousel to
specify the U axis. It can be set to 6 for all other types also as it is not used for them.
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Parameters
225
805 PROBE ARM TYPE
Replaces lathe parameter 278 bit 10, TL SET PROBE. Value specifies the probe arm type: 0 = no probe arm, 1 =
manual probe arm, 2 = automatic probe arm.
806 PROBE ARM RELAY
Specifies the IOPCB Relay used to extend or retract the probe arm (see M104 and M105).
807 DOOR OPEN SW DELAY
Specifies a delay in 50ths of a second that stops door motor and clutch after door reaches the open-door switch.
808 PROBE ARM START TIMEOUT
Amount of time, in milliseconds, allowed for the probe arm to start to move to the extended or retracted position
before an alarm is generated.
809 PROBE ARM TIMEOUT
Amount of time, in milliseconds, allowed for the probe arm to reach the extended or retracted position before an
alarm is generated.
823 AUTO DOOR TYPE
Specifies the type of door being used. Values 0 to 3 are for an auto door with a clutch. Value 4 specifies an auto
door driven by a servo motor.
0 Manual door, 1 Clutch door, 2 APL lathe door, 3 Mill pallet changer door, 4 Servo auto door
824 SERVO DR AXIS
Specifies the axis used for the Servo Auto Door. Must be set to 6 for mill and 1 for lathes. Parameter 823 must be
set to 4 for Servo Autodoor.
825 SERVO DR WIDTH
Specifies how wide the Servo Auto Door is to open (inch x 10,000). Do not exceed maximim door opening width.
826 SERVO DR DECEL
The deceleration value used when the door has reached the safe zone (parameter 827) before continuing to the
closed position. Units are encoder steps/millisecond/millisecond.
827 SERVO DR SAFE ZONE
The region at which the Servo Auto Door is to decelerate using parameter 826 and to limit current using parameter
726. Units are inches x 10,000.
828 PROBE ARM HOME SW
The input port number on the IOPCB where the probe arm switch for the retract position is connected.
829 PROBE ARM DOWN SW
The input port number on the IOPCB where the probe arm switch for the extended position is connected.
831 LIVE TOOL STEPS/REV
The control now accommodates a gear box to drive the live tooling, and provides different live tool revolution to
motor revolution ratios other than 1 to 1. Parameter 831 Live Tool Steps/Rev has been added to support the new
live tooling gear box. Units are in encoder steps per one live tool revolution.
830 HPC LOW PRESSURE DELAY
If the high pressure coolant pump pressure continues to be low after the specified time allotted in this parameter,
alarm 151 Low HPC Pressure will be generated. The HPC low pressure sensor status is shown on the Discrete
Inputs columns of the Diagnostics pane with the title of HPC Low Pressure. The units are milliseconds.
Phase Advance Parameters
These parameters support a phase advance algorithm that produces maximum torque from the axis motors.
The parameter values represent the phase advance angle at the maximum RPM of each axis servo motor
(3000 RPM) in electrical degrees. These parameters work with CF Mocon version 15.00 or later. The new
parameters are:
226
Parameters
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868 X PHASE ADVANCE ANGLE
869 Y PHASE ADVANCE ANGLE
870 Z PHASE ADVANCE ANGLE
871 A PHASE ADVANCE ANGLE
872 B PHASE ADVANCE ANGLE
873 (L) C PHASE ADVANCE ANGLE
877 Sp PHASE ADVANCE ANGLE
874 U PHASE ADVANCE ANGLE
875 V PHASE ADVANCE ANGLE
876 W PHASE ADVANCE ANGLE
878 (M) Tt PHASE ADVANCE ANGLE
878 (L) Tt PHASE ADVANCE ANGLE
879 (L) Ss PHASE ADVANCE ANGLE
884-899 X NOTCH CENTER FREQ
This specifies the center frequency in hertz (Hz) of the command notch filter for this axis. It requires CF MOCON
15.00 or later. Units are Hz * 10. Following parameters provide an acceleration feed forward gain directly from the
MOCON board.
900-915 X NOTCH DEPTH FACTOR
This specifies the depth ratio at the center frequency of the command notch filter for this axis. It requires CF
MOCON 15.00 or later. Units are a ratio / 10,000.
916 X MOCON ACC FFD COEF
919 A MOCON ACC FFD COEF
922 U MOCON ACC FFD COEF
926 Tt MOCON ACC FFD COEF
917 Y MOCON ACC FFD COEF
920 B MOCON ACC FFD COEF
923 V MOCON ACC FFD COEF
918 Z MOCON ACC FFD COEF
925 Sp MOCON ACC FFD COEF
924 W MOCON ACC FFD COEF
Following parameters support a wide range of values for any ratio of motor electrical revolution per mechanical revolution.
932 X EREV PER MREV
933 Y EREV PER MREV
934 Z EREV PER MREV
935 A EREV PER MREV
936 B EREV PER MREV
941 Sp EREV PER MREV
938 U EREV PER MREV
939 V EREV PER MREV
940 W EREV PER MREV
942 Tt EREV PER MREV
BALLSCREW COMPENSATION (MILLS)
Separate ballscrew compensation is provided for each of the X, Y, and Z axes. Operator-entered values are
spaced at 0.5 inch intervals within the machine coordinate system. The compensation values are entered
in inches with a resolution of 0.0001 inch. The values are used to interpolate into a table of 256 entries. The
spacing between two entries in the table of 256 is defined by Parameter 58. The entered values are limited to
+/-127 encoder steps; so the limit in inches is dependent on Parameters 5, 19, and 33.
Note that the first entry corresponds to machine position zero and subsequent entries are for increasingly
negative positions in the machine coordinate system. The user should not ever need to adjust the ballscrew
compensation tables.
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Parameters
227
ELECTRONIC THERMAL COMPENSATION
When ballscrews rotate they generate heat, which causes ballscrews to expand. In constant duty cycles, the
resultant ballscrew growth can lead to cutting errors on the next morning start up. The Haas ETC algorithm
can accurately model this heating and cooling effect and electronically expand and contract the screw to give
near glass scale accuracy and consistency. This compensation is based on a model of the lead screw which
calculates heating based on the distance traveled and the torque applied to the motor. This compensation
does not correct for thermal growth due to changes in ambient temperature or due to part expansion.
Electronic thermal compensation works by estimating heating of the screw based on the total amount of travel
over its length and including the amount of torque applied to the screw. This heat is turned into a thermal
coefficient of expansion and the position of the axis is multiplied by the coefficient to get a correction amount.
If the machine is turned off when there is some compensation applied (due to motion and heating of screw),
when the machine is turned back on, the compensation will be adjusted by the clock indicated elapsed time.
SPINDLE HEAD THERMAL COMPENSATION
This feature integrates spindle speed over time and builds a model of thermal growth. As the model shows the
spindle head warming up, the control adjusts the Z-axis to compensate for thermal growth.
X-AXIS THERMAL COMPENSATION (LATHES)
During machining, the heating of the ballscrews transfers heat by conduction to the thermal sensor body. This
causes the resistance of the sensor to vary according to the temperature. The resistance value is read by the
software, which compensates for the change in temperature by adjusting the program accuracy accordingly.
The thermal sensor is connected to the ballscrew and compensates program accuracy for changes in
ballscrew temperature.
COMMON ABBREVIATIONS
°/sec or deg/sec – Degrees per second
µ – Micron
AC – Alternating Current
AMP (or A) – Ampere
APC – Automatic Pallet Changer
APL – Automatic Parts Loader
arc-sec – Arc seconds
ASCII – American Standard Code for Information Interchange
ATC – Automatic Tool Changer
ATC FWD – Automatic Tool Changer Forward
ATC REV – Automatic Tool Changer Reverse
AWG – American Wire Gauge
bar – Metric air pressure
BHCS – Button Head Cap Screw
blocks/sec – Blocks per second
BT – British Tooling (Common usage)
CAD – Computer Assisted Design
CAM – Computer Assisted Manufacturing (Assisted Machining)
CAT-5 – Category 5 Cable
CB – Circuit Breaker
CC – Cubic Centimeter
CCW – Counter Clock Wise
CFM – Cubic Feet per Minute
CMM – Coordinate Measuring Machine
CNC – Computer Numerical Control
CNCR SPINDLE – Concurrent Spindle with axis motion
CRC – Cyclic Redundancy Check digit
CRT – Cathode Ray Tube
228
Parameters
I/O PCB – Input Output Printed Circuit Board
ID – Inside Diameter
IGBT – Isolated Gate Bipolar Transistor
in – Inch
in-lb – Torque (inch-pounds)
ipm – Inches per Minute
kg – Kilogram
kVA – Kilovolt ampere
kW – Kilowatt
l – Liter
LAN – Local Area Network
lb – Pound
LCD – Liquid Crystal Display
LED – Light Emitting Diode
LO CLNT – Low Coolant
LOW AIR PR – Low Air Pressure
lpm – Liters per Minute
LVPS – Low Voltage Power Supply
m – Meter
m2 – Square meter
M-FIN – M -code Finished
m/min – Meters per Minute
MB – Megabyte (1 million)
MCD RLY BRD – M -Code Relay Board
MDI – Manual Data Input
MEM – Memory
MHz – Megahertz
mm – MilliMeter
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CT – Caterpillar Tooling
CTS – Clear To Send
CW – Clock Wise
DB – Drawbar
DC – Direct Current
DGNOS – Diagnostic
DHCP – Dynamic Host Configuration Protocol
DIR – Directory
DNC – Distributive Numerical Control
DOS – Disk Operating System
DTE – Data Terminal Equipment
ENA CNVR – Enable Conveyor
EDM – Electrical Discharge Machining
EOB – End Of Block
EOF – End Of File
EPROM – Erasable Programmable Read Only Memory
E-STOP – Emergency Stop
FHCS – Flat Head Cap Screw
fpm – Feet per Minute
ft – Foot
FU – Fuse
FWD – Forward
GA – Gauge
gal – Gallon
gpm – Gallons per Minute
HHB – Hex Head Bolts
hp – Horsepower
HS – Horizontal Series of Machining Centers
I/O – Input/Output
SDIST – Servo Distribution PCB
SFM – Surface Feet per Minute
SHCS – Socket Head Cap Screw
SIO – Serial Input/Output
SKBIF – Serial Key Board Inter Face PCB
SMTC – Side-Mount Tool Changer
SP – Spindle
sq ft or ft2 – Square feet
T – Tool Number
TC – Tool Changer
TIR – Total Indicated Runout
TNC – Tool Nose Compensation
ft-lb – Torque (foot-pounds)
TRP – Tool Release Piston
TS – Tail Stock
TSC – Thru the Spindle Coolant
TXD – Transmit Data
V – Volt
V AC – Volts alternating current
V DC – Volts direct current
VDI – Verein Deutscher Ingenieure
VMC – Vertical Machining Center
WAN – Wide Area Network
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Parameters
MOCON – Motor Control
MOTIF – Motor Interface
mph – Miles per hour
MSG – Message
MSHCP – Metric Socket Head Cap Screw
N (unit of force) – Newton/newtons
NC – Numerical Control
NC – Normally Closed
Nm – Torque/metric - Newton meters
NO – Normally Open
OD – Outside Diameter
OPER – Operator
oz – Ounce
P – Pocket
PARAM – Parameter
PCB – Printed Circuit Board
PGM – Program
POR – Power On Reset
POSIT – Positions
PROG – Program
psi – Pounds per Square Inch
PST – Pallet Schedule Table
PWM – Pulse Width Modulation
RAM – Random Access Memory
RET – Return
REV CNVR – Reverse Conveyor
RJH – Remote Jog Handle
rpm – Revolutions Per Minute
RTS – Request To Send
RXD – Receive Data
229
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