1010CJ Wiring Manual.book - Honeywell Process Solutions

Card Descriptions and
Wiring Manual
Load Computer 1010 CJ
Table of Contents
CHAPTER 1 Card Descriptions and Terminal Layouts
1.1 CPU Card - S10CPU-xxx-I3 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-2
1.1.1 Card Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-2
1.1.2 Replacement Batteries . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-3
1.1.3 Terminal Descriptions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-3
1.2 Input Card - S10NA . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-4
1.2.1 Card Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-4
1.2.2 Terminal Descriptions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-5
1.2.3 Notes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-5
1.2.4 Switch Inputs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-6
1.2.5 Flowmeter Inputs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-6
1.2.6 Temperature Inputs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-6
1.3 Output Relay Card - S10RA-XXX-RB-XXX . . . . . . . . . . . . . . . . . . . . . . . . . 1-7
1.3.1 Card Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-7
1.3.2 Terminal Descriptions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-8
1.3.3 Notes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-8
1.3.4 Solid State Relay Outputs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-9
1.3.5 Electromechanical Relays . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-9
1.4 Power Supply Card—S800PS4-6 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-10
1.4.1 Card Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-10
1.4.2 Terminal Layout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-11
1.4.3 Electromechanical Relays . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-12
CHAPTER 2 Typical Wiring Diagram
CHAPTER 3 Model 1010 Communication Cables
3.1 1010 to PC/Printer via ADAM 4520 RS232/422 Converter . . . . . . . . . . . . 3-1
3.1.1 2 Twisted Pairs + 0V . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-1
3.1.2 1 Twisted Pair + 0V . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-2
3.2 1010 to PC/Printer via Black Box IC109A RS232/485 Converter . . . . . . . 3-3
3.2.1 2 Twisted Pairs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-3
3.2.2 RS 485: 1 Twisted Pair . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-4
3.3 1010 to PC/Printer (RS232) via ENTRELEC 84233-11 Converter . . . . . . . 3-5
3.3.1 RS 422: 2 Twisted Pairs + 0V . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-5
3.3.2 RS 485: 1 Twisted Pair + 0V . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-6
3.4 1010 to PC/Printer (RS232) via ADVANTEC PCL8442 . . . . . . . . . . . . . . . 3-7
3.5 1010 to Tally Printer (RS422) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-8
3.6 1010 to PC/Printer (RS232) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-9
3.7 1010 to RFI-9256 Radio Modem (RS232) . . . . . . . . . . . . . . . . . . . . . . . . . 3-10
3.8 Multiple 1010s to RFI-9256 Radio Modem (RS232). . . . . . . . . . . . . . . . . 3-11
3.9 PC to RFI-9256 Radio Modem (RS232) . . . . . . . . . . . . . . . . . . . . . . . . . . 3-12
Part No.: 4418008 - Revision 1
Model 1010 Application Pack CJ
Card Descriptions and Wiring Manual
iii
3.10 1010 (Isolated RS485) to PC via ADAM 4520 Converter . . . . . . . . . . . 3-13
3.11 1010 (Isolated RS485) to PC via Black Box IC109A Converter . . . . . . . 3-14
3.13 1010 to EFT Mini-Pak Additive Injector . . . . . . . . . . . . . . . . . . . . . . . . . . 3-16
3.14 1010 to RTD (PT100) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-17
3.15 1010 to NexWatch DR4208S Card Reader . . . . . . . . . . . . . . . . . . . . . . . . 3-17
CHAPTER 4 Solid State Relays
Glossary
iv
Model 1010 Application Pack CJ
Card Descriptions and Wiring Manual
Part No.: 4418008 - Revision 1
CHAPTER 1 CARD DESCRIPTIONS AND TERMINAL LAYOUTS
The terminal layouts in this document show a typical 4-arm
configuration. Where the number of arms is less than 4 ignore the arm
connections on the terminal diagrams that relate to the arms not being
used.
Part No.: 4418008 - Revision 1
Model 1010 Application Pack CJ
Card Descriptions and Wiring Manual
1-1
Card Descriptions and Terminal Layouts
1.1 CPU Card - S10CPU-xxx-I3
1.1.1 Card Description
This CPU card is designed to work in the 1010 C series of loading
instruments. The 1010 C series instruments feature a large graphics
display, battery backed real time clock, and non-volatile flash memory,
which is used to store all configuration and transaction data.
The card has three isolated communication ports, which can be set up
through software via configuration settings.

Port 1: Isolated RS485/422/232 (standard)
Port 2: Isolated RS485/232 (standard)
Port 3: Isolated RS485/232 (standard)


2
S10CPU- 0 0 0 -I3
C D E
D1
R
D7
D8
D12
3
D13
D17
1
D18
D29
Item
Description
1
Motherboard connector
2
Part and Issue numbers
3
Wiring terminals
The card also has inputs that are software selectable for the following:



1-2
RF ID reader
Touch Key (2 key inputs) using MTL zener barrier
Touch Key (2 key inputs) without barrier
Model 1010 Application Pack CJ
Card Descriptions and Wiring Manual
Part No.: 4418008 - Revision 1
Card Descriptions and Terminal Layouts



Two logic inputs
Touch Key via MTL zener barrier and one logic input
Touch Key without barrier and one logic input
1.1.2 Replacement Batteries
Use only 3 volt lithium batteries, size CR2032.
1.1.3 Terminal Descriptions
D1
D2
D3
D4
D5
D6
D7
Part No.: 4418008 - Revision 1
- Port 1 Rx RS232
- Port 1 Tx RS232
- Port 1 0V Common
- Port 1 Rx+ RS422
- Port 1 Rx- RS422
- Port 1 Tx+ RS422
- Port 1 Tx- RS422
D8
D9
D10
D11
D12
- Port 2 Rx RS232
- Port 2 Tx RS232
- Port 2 0V Common
- Port 2 Rx/Tx+ RS485
- Port 2 Rx/Tx- RS485
D13
D14
D15
D16
D17
- Port 3 Rx RS232
- Port 3 Tx RS232
- Port 3 0V Common
- Port 3 Rx/Tx+ RS485
- Port 3 Rx/Tx- RS485
D18
D19
D20
D21
D22
D23
D24
D25
D26
D27
D28
D29
- Signal Ground
- Signal Ground
- +5V to Reader
- Card Int/Touch Key#1/In #1
- Card Data/Touch Key#2/In #2
- Card Present
- 4-20mA Channel 1 V+
- 4-20mA Channel 1 Iout
- 4-20mA Channel 2 V+
- 4-20mA Channel 2 Iout
- 4-20mA Channel 3 V+
- 4-20mA Channel 3 Iout
Model 1010 Application Pack CJ
Card Descriptions and Wiring Manual
1-3
Card Descriptions and Terminal Layouts
1.2 Input Card - S10NA
1.2.1 Card Description
The S10NA is a general purpose input card designed for 1 to 4 arm
systems. This is a general purpose input card and is composed of the
following input functions:

4 x RTD/4-20 mA temperature inputs
4 x 4-20 mA inputs, which can be used for pressure
4 x flow meter inputs (dual inputs on each channel)
16 x general purpose inputs



Each input has transient protection.

2
An unscaled opto output is coupled to the “A” side of the flowmeter
input circuitry to retransmit the flow signal. This output can be used
for proving or for driving additional registers.
S10NA-I1
Lithium Battery
3
1
LNK1
Item
1-4
Description
1
Motherboard connector
2
Part and Issue numbers
3
Wiring terminals
Model 1010 Application Pack CJ
Card Descriptions and Wiring Manual
Part No.: 4418008 - Revision 1
Card Descriptions and Terminal Layouts
1.2.2 Terminal Descriptions
Temp Arm 3
Temp Arm 4
RTD 3 Source RTD 3 Sense (+) / 4-20 mA 5 (+) RTD 3 Sense (-) RTD 3 & 4 Sink RTD 4 Source RTD 4 Sense (+) / 4-20 mA 6 (+) RTD 4 Sense (-) -
CB1
CB2
CB3
CB4
CB5
CB6
CB7
CA1
CA2
CA3
CA4
CA5
CA6
CA7
- RTD 1 Source
- RTD 1 Sense (+) / 4-20 mA 1 (+)
- RTD 1 Sense (-)
- RTD 1 & 2 Sink
- RTD 2 Source
- RTD 2 Sense (+) / 4-20 mA 2 (+)
- RTD 2 Sense (-)
Temp Arm 1
Temp Arm 2
CB8
CA8
CB9
CA9
CB10 CA10
CB11 CA11
CB12 CA12
- 4-20 mA 3 (+)
- 4-20 mA 4 (+)
- Opto Output 1
- Opto Output 2
- Opto 0 V
Signal Ground (Flow)/ 4-20mA (-) Flow Input Meter 3A Flow Input Meter 3B Signal Ground (Flow)/ 4-20mA (-) Flow Input Meter 4A Flow Input Meter 4B -
CB13
CB14
CB15
CB16
CB17
CB18
CA13
CA14
CA15
CA16
CA17
CA18
- Signal Ground (Flow)/ 4-20mA (-)
- Flow Input Meter 1A
- Flow Input Meter 1B
- Signal Ground (Flow)/ 4-20mA (-)
- Flow Input Meter 2A
- Flow Input Meter 2B
Signal Ground GP Input 9 (Programmable In # 5) GP Input 10 (Programmable In # 6) GP Input 11 GP Input 12 Signal Ground GP Input 13 GP Input 14 GP Input 15 GP Input 16 -
CB19
CB20
CB21
CB22
CB23
CB24
CB25
CB26
CB27
CB28
CA19
CA20
CA21
CA22
CA23
CA24
CA25
CA26
CA27
CA28
- Signal Ground
- GP Input 1 (Emergency Stop)
- GP Input 2 (Permissive # 1 – Overfill/Ground)
- GP Input 3 (Permissive # 2 – Vapour Recovery)
- GP Input 4 (Permissive # 3 – Programmable Permissive)
- Signal Ground
- GP Input 5 (Programmable In # 1)
- GP Input 6 (Programmable In # 2)
- GP Input 7 (Programmable In # 3)
- GP Input 8 (Programmable In # 4)
4-20 mA 7 (+) 4-20 mA 8 (+) Opto Output 3 Opto Output 4 Opto 0 V -
1.2.3 Notes
1.
2.
3.
4.
Part No.: 4418008 - Revision 1
Flow inputs provide for dual pulse signals from each flow meter as
a pulse integrity check of the flow signal. Flow meter 1 therefore
has two inputs, 1A and 1B.
Temperature Input share a common ground.
All switch inputs on CA20 to CA28 must be voltage-free switch
contacts from a relay or switch.
All inputs must be shielded. For CE compliance, shields should be
connected at one end only and wired to the chassis earth.
Model 1010 Application Pack CJ
Card Descriptions and Wiring Manual
1-5
Card Descriptions and Terminal Layouts
1.2.4 Switch Inputs
Switch Inputs
5V
Voltage Free
Contact
1K
1.2.5 Flowmeter Inputs
Flowmeter Inputs
+5V/NC/Gnd
+12 or 24V
1K
1K
F
Flowmeter
Open Collector (Pullup to 5V)
Pulse (Pullup not connected)
Namur (Pullup to 0V)
1.2.6 Temperature Inputs
Temperature Inputs
24 Vdc
+
T
-
4-20 mA
Temperature
Transmitter
Precision
250 ohm
Ground common
to all temperature inputs
The type of flow meter input can be selected through the configuration
menu.
1-6
Model 1010 Application Pack CJ
Card Descriptions and Wiring Manual
Part No.: 4418008 - Revision 1
Card Descriptions and Terminal Layouts
1.3 Output Relay Card - S10RA-XXX-RB-XXX
1.3.1 Card Description
This card is a general purpose relay output card and is made up of 24
relay outputs. The S10RB-XXX-I1 card is mounted onto the S10RAXXX-I1 card, each providing 12 relay outputs.

Relays can be 100-240 Vac solid state or Electromechanical
The X in S10RA-XXX can either be S or R depending upon the type
of relays on board. (S indicates solid state and R indicates Electromechanical relays).
There are a total of 6 relay banks each having 4 relays. Each bank
can be of different relay types. The default combination is S10RASSR-RB- RRR.
Electromechanical relay outputs have MOV’s across the output.



The solid state relay outputs are suitable for driving digital control valves
where continual switching of the outputs would otherwise wear out a
mechanical relay. The outputs are fully isolated and capable of driving
only A.C. voltages. The outputs have a snubber network across the
output to minimise voltage spikes when switching inductive loads such
as coils.
BB
B1
1
2
3
4
5
6
B6
B7
S10RB-XXX-I1
SLOT C
SLOT B
LK2
1
B12
B13
LK1
B18
S10RA-XXX-I1
2
Item
Part No.: 4418008 - Revision 1
BA
7
8
9
10
11
12
13
14
15
16
17
18
3
Description
1
Motherboard connector
2
Part and Issue numbers
3
Wiring terminals
Model 1010 Application Pack CJ
Card Descriptions and Wiring Manual
1-7
Card Descriptions and Terminal Layouts
1.3.2 Terminal Descriptions
Relay B13 (GP Output #11) Common for Relays 13 & 14 Relay B14 (GP Output #12) Relay B15 (GP Output #13) Common for Relays 15 & 16 Relay B16 (GP Output #14) -
BB1
BB2
BB3
BB4
BB5
BB6
BA1
BA2
BA3
BA4
BA5
BA6
- Relay B1 – Arm 1 - DCV Inlet
- Common for Relays 1 & 2
- Relay B2 – Arm 1 - DCV Outlet
- Relay B3 – Arm 2 - DCV Inlet
- Common for Relays 3 & 4
- Relay B4 – Arm 2 - DCV Outlet
Relay B17 (GP Output # 15) Common for Relays 17 & 18 Relay B18 (GP Output #16) Relay B19 (GP Output #17) Common for Relays 19 & 20 Relay B20 (GP Output #18) -
BB7
BA7
BB8
BA8
BB9
BA9
BB10 BA10
BB11 BA11
BB12 BA12
- Relay B5 – Arm 3 - DCV Inlet
- Common for Relays 5 & 6
- Relay B6 – Arm 3 - DCV Outlet
- Relay B7 – Arm 4 - DCV Inlet
- Common for Relays 7 & 8
- Relay B8 – Arm 4 - DCV Outlet
Relay B21 (GP Output #19) Common for Relays 21 & 22 Relay B22 (GP Output #20) Relay B23 (GP Output # 21) Common for Relays 23 & 24 Relay B24 (GP Output #22) -
BB13
BB14
BB15
BB16
BB17
BB18
- Relay B9 - (GP Output #7)
- Common for Relays 9 & 10
- Relay B10 - (GP Output #8)
- Relay B11 - (GP Output #9)
- Common for Relays 11 & 12
- Relay B12 - (GP Output #10)
BA13
BA14
BA15
BA16
BA17
BA18
Notes:
* Relay B1, B3, B5 & B7 - Two Stage Valve - Slow Flow
Digital Control Valve - Inlet
On/Off Valve - On and Off
** Relay B2, B4, B6 & B8 - Two Stage Valve - High Flow
Digital Control Valve - Outlet
1.3.3 Notes
Link 1 provides addressing for the board so that it may be mounted in
slot B or C.

Card Mounted in Slot B (Default)
Link in positions A & B (as shown above )

Card Mounted in Slot C
Link in positions B & C
NOTE:
1-8
Link 2 is not required.
Model 1010 Application Pack CJ
Card Descriptions and Wiring Manual
Part No.: 4418008 - Revision 1
Card Descriptions and Terminal Layouts
1.3.4 Solid State Relay Outputs
Solid State Relay Outputs
Solid State Relay
Coil
Snubber
Network


AC
Mains
Switching Voltage: AC Only 90 - 240 Vac, 1 Amp max.
Transient Protection: Snubber Network 47 nF, 47R
1.3.5 Electromechanical Relays


Part No.: 4418008 - Revision 1
Rating: 240 Vac, 30 Vdc Max, 1 Amp max.
Protection: 275 Vac MOV transient protection
Model 1010 Application Pack CJ
Card Descriptions and Wiring Manual
1-9
Card Descriptions and Terminal Layouts
1.4 Power Supply Card—S800PS4-6
1.4.1 Card Description
This card is a general purpose power supply card. It is made of the
following:




110/220 Vac mains input
6 electromechanical relay outputs
5 to 30 Vdc power out (100 mA max.)
12 Vdc power out (250 mA max.)
Mains voltage is selected by a switch on the board and can be either
110 Vac (95 to 135 Vac) or 220 Vac (190 to 260 Vac). A 500 mA fuse
and varistor provide protection on the mains inputs against power
spikes and short term overvoltage connection.
The 5 to 30 Vdc power output is adjustable by means of a trim
potentiometer adjacent to terminal A3. This should be adjusted with a
screwdriver while monitoring the resultant voltage on terminal A2 with a
voltmeter. The default value when shipped from the factory is 24V.
LK3
3
OUT
2
IN
2
A1
LK1
A3
A B
4
A4
A B
5
A8
S800PS4-6-Iss4
LK2
A9
1
230V
A17
N
not connected
L1
6
10
1 - 10
9
8
Model 1010 Application Pack CJ
Card Descriptions and Wiring Manual
7
Part No.: 4418008 - Revision 1
Card Descriptions and Terminal Layouts
Item
Decription
1
Motherboard connector
2
Link
3
DC fuse, 250 Vac, 1.5 A Slow-Blow Size: 20 x 5 mm (used only in DC operation)
4
DC voltage adjustment
5
Wiring terminals
6
To chassis (earth for CE compliance)
7
Mains fuse, 250 Vac, 500 mA Slow-Blow Size: 20 x 5 mm
8
Mains selection, 110 or 220 VAC
9
Part and issue numbers
10
Mains transformer
1.4.2 Terminal Layout
A1
A2
A3
A4
A5
A6
A7
A8
A9
A10
A11
A12
A13
A14
A15
A16
A17
N
L1
Part No.: 4418008 - Revision 1
- DC Ground (0 Vdc)
- Supply Out (8 - 30 Vdc, 100mA)
- Supply Out (12 Vdc, 250mA)
- Internal Connection
- Internal Connection
- Not Used
- Internal Connection
- Internal Connection
- Relay A1 (GP Output #1)
- Relay A2 (GP Output #2)
-
Relay A3 (GP Output #3)
Relay A4 (GP Output #4)
Relay A5 (GP Output #5)
Relay A6 (GP Output #6)
Relay Common A13 - A16
- 110/220 Vac Supply (Neutral)
- Not Used
- 110/220 Vac Supply (Active)
Model 1010 Application Pack CJ
Card Descriptions and Wiring Manual
1 - 11
Card Descriptions and Terminal Layouts
1.4.3 Electromechanical Relays
Rating: 240 Vac, 30 Vdc Max 1 Amp max.
Protection: 275 Vac MOV transient protection
Relay Outputs
Electromechanical
Relays 3 to 6
A13
Electromechanical
Relays 1 & 2
A14
MOV
Transient
Protection
A15
A16
A17
1 - 12
Model 1010 Application Pack CJ
Card Descriptions and Wiring Manual
Part No.: 4418008 - Revision 1
CHAPTER 2 TYPICAL WIRING DIAGRAM
This section describes a typical wiring diagram for a single arm 1010
installation. This is intended as a guide only.
Model 1010-1 Explosion proof enclosure
AC MAINS
Chassis
EARTH
N
NEUTRAL
L1
25 mm Cable
Gland
ACTIVE
FLOW
CONTROL
VALVE
BA1
BA3
Three Minute
Timer Beacon
A9
A10
Power Supply for
Pump / GIV Outputs
A17
RELAY COMMON
FOR B1 and B2
FLOW
CONTROL
VALVE
DEAD MAN
INDICATOR
RELAY COMMON
FOR A13 to A16
A13 PUMP DEMAND
25 mm Cable
Gland
PUMP
CONTROL
GANTRY ISOLATION
VALVE
ADDITIVE SYSTEM
+VE SUPPLY
COMMON
FLOWMETER
PULSER
OUTPUT A
OUTPUT B
BB2 RELAY COMMON FOR
Relay B13 & B14
BB1 GANTRY ISOLATION VALVE
BA14
RELAY COMMON FOR
Relay B9 & B10
BA13
ADDITIVE PULSE
A3
Gland
A1
FLOWMETER INPUT ARM 1
CA14 SIGNAL A
CA15 SIGNAL B
A2
CA2
+
-
+12VDC
0 VDC
+24 VDC (ADJUSTED)
TEMPERATURE
INPUT
Cable
4 - 20 MA
TEMPERATURE
TRANSMITTER
BA2
AC
POWER
OVERFILL / EARTH
SENSOR
CA19 SWITCH COMMON
CA21 OVERFILL INPUT
25 mm
VAPOUR
RECOVERY
EMERGENCY
STOP
CA19 SWITCH COMMON
CA22 VAPOUR RECOVERY INPUT
CA19 SWITCH COMMON
CA20 EMERGENCY STOP INPUT
All Communications & Signal Cables
to be IS & OS Twisted Pair
Part No.: 4418008 - Revision 1
Model 1010 Application Pack CJ
Card Descriptions and Wiring Manual
2-1
Typical Wiring Diagram
D4 (Rx+)
D5 (Rx-)
RS422
PC/Printer
D3 (0V)
RS422
Communications
D6 (Tx+)
D7 (Tx-)
Port 1 set to RS422
D8 (Rx)
D9 (Tx)
RS232
PC/Printer
RS232
Communications
Port 2 set to RS232
25 mm Cable Gland
D10 (0V)
RS485
PC/Printer
D17 (-)
D16 (+)
RS485
Communications
D15 (0V)
Port 3 set to RS485
ALARM OUTPUT
(Voltage free
contact 1 Amp)
BB13 GENERAL ALARM
BB14 OUTPUT
Mini-Pak 3000
RS485
COMMS
TB1-5
TB1-6
TB1-4
If MP3000 is used
then it would replace
the Port 2 Printer
connection above
25 mm Cable Gland
Additive Injection
System
All Communications & Signal Cables
to be IS & OS Twisted Pair
2-2
Model 1010 Application Pack CJ
Card Descriptions and Wiring Manual
D11 (+)
D12 (-)
RS485
Communications
D10 (0V)
Terminal
Strip
Part No.: 4418008 - Revision 1
Part No.: 4418008 - Revision 1
Model 1010 Application Pack CJ
Card Descriptions and Wiring Manual
11 data bits, 1 start, 8 data, 1 parity, 1 stop : SW1 OFF, SW2 ON
10 data bits, 1 start, 8 data, no parity, 1 stop : SW1 ON, SW2 OFF
3) This connection diagram is also applicable for the models 1030, 1040, and 1050.
2)
SW1 (See Note 2)
OFF
1
2
ON
SW2
1-9 Don't care
10 ON
Internal Switch Settings
Tx+ must be paired with Tx-, Rx+ must be paired with Rx-.
RS232
1)
NOTES
Use shielded RS232 cable
wired straight through
(ie: pin 1 to pin 1, pin
2 to pin 2, etc) with
9-25 way converters
if required.
To PC or Printer
9 Way
Female
ADAM 4520
RS422
PORT 1
1010
10 to 30V DC
(R)+Vs
RxRx+
TxTx+
GND
D5
D4
D7
D6
D3
D3
0V
ADAM 4520
D4
Rx+
(B)GND
D5
Rx-
D6
PORT
D7
Tx+
+V 0V
RS422
Tx+
Tx-
1010
Tx-
Rx+
Rx-
Shielded twisted pairs with
individual screen and
overall screen. See Note 1.
CHAPTER 3 MODEL 1010 COMMUNICATION CABLES
3.1 1010 to PC/Printer via ADAM 4520 RS232/422 Converter
3.1.1 2 Twisted Pairs + 0V
3-1
3-2
Use shielded RS232 cable
wired straight through
(ie: pin 1 to pin 1, pin
2 to pin 2, etc) with
9-25 way converters
if required.
To PC
Model 1010 Application Pack CJ
Card Descriptions and Wiring Manual
Select
one (1)
only
ON
RS485
RS232
+V 0V
10 to 30V DC
(R)+Vs
(B)GND
DATA+
DATA-
NOTES
1) 11 data bits, 1 start, 8 data, 1 parity, 1 stop : SW1 OFF, SW2 ON
10 data bits, 1 start, 8 data, no parity, 1 stop : SW1 ON, SW2 OFF
2) This connection diagram is also applicable for the models 1030, 1040, and 1050.
9 Way
Female
Internal Switch Settings
SW1 (See Note 1)
1
OFF
2
ON
SW2
OFF
1
2
1200 bps
3
2400 bps
4
4800 bps
5
9600 bps
6
19.2 Kbps
7
38.4 Kbps
8
57.6 Kbps
9
115.2 Kbps
10
OFF
ADAM 4520
RS485 DATARS485 DATA+
GND
ADAM 4520
RS485
Shielded twisted pair with
individual screen and
overall screen.
D12
D11
D10
PORT 2
1010
D17
D16
D15
PORT 3
0V
Tx+/Rx+
Tx-/Rx-
D10
D15
D16
D17
D12
D11
PORT 3
PORT 2
1010
Model 1010 Communication Cables
3.1.2 1 Twisted Pair + 0V
Part No.: 4418008 - Revision 1
Part No.: 4418008 - Revision 1
Use shielded RS232 cable
wired straight through
(ie: pin 1 to pin 1, pin
2 to pin 2, etc) with
9-25 way converters
if required.
To PC or Printer
Model 1010 Application Pack CJ
Card Descriptions and Wiring Manual
W19
Operating
Mode
W17
W15
RxB
RxA
TxB
TxA
XW1A
XW1B
Oper. Mode
TERM
BIAS
W5
W8
W9
W15
W16
W17
W19
DIP Shunt (IC109A Set to DCE)
Open (No DIP Shunt)
Normal
As Required - Usually OFF
As Required - Usually OFF
A-B
A-B
C
B-C
A
E
Not Used
IC109A Link Settings
RxA
RxB
TxA
TxB
IC109A
D7
D6
D5
D4
PORT 1
NOTES
1) Tx+ must be paired with Tx-, Rx+ must be paired with Rx-.
2) A 0V connection is not available for RS422 on the IC109A.
3) If multiple 1010s are connected to an IC109A, the 0V terminals (D3) of the 1010s should all be joined together.
4) This connection diagram is also applicable for the models 1030, 1040, and 1050.
W8 W16
TERM BIAS
XW1B
W9
W5
XW1A
25 Way Female
IC109A
RS422
Shielded twisted pairs with
individual screen and
overall screen. See Note 1.
1010
0V
Rx+
D3
D4
D5
D6
Tx+
Rx-
D7
Tx-
PORT 1
1010
Model 1010 Communication Cables
3.2 1010 to PC/Printer via Black Box IC109A RS232/485
Converter
3.2.1 2 Twisted Pairs
3-3
3-4
Use shielded RS232 cable
wired straight through
(ie: pin 1 to pin 1, pin
2 to pin 2, etc) with
9-25 way converters
if required.
To PC
Model 1010 Application Pack CJ
Card Descriptions and Wiring Manual
W19
Operating
Mode
W17
W15
RxB
RxA
TxB
TxA
XW1A
XW1B
Oper. Mode
TERM
BIAS
W5
W8
W9
W15
W16
W17
W19
DIP Shunt (IC109A Set to DCE)
Open (No DIP Shunt)
Normal
As Required - Usually OFF
As Required - Usually OFF
A-B
B-C
C
B-C
A
E
Not Used
IC109A Link Settings
Shielded twisted pair with screen.
RxA, TxA
RxB, TxB
IC109A
D12
D11
PORT 2
NOTES
1) A 0V connection is not available for RS485 on the IC109A.
2) If multiple 1010s are connected to an IC109A, the 0V terminals (D10,D15) of the 1010s should all be joined together.
3) This connection diagram is also applicable for the models 1030, 1040, and 1050.
W8 W16
TERM BIAS
XW1B
W9
W5
XW1A
25 Way Female
IC109A
RS485
1010
D17
D16
PORT 3
D10
D15
D16
0V
D17
D12
PORT 3
Rx+/Tx+ D11
Rx-/Tx-
PORT 2
1010
Model 1010 Communication Cables
3.2.2 RS 485: 1 Twisted Pair
Part No.: 4418008 - Revision 1
Part No.: 4418008 - Revision 1
Model 1010 Application Pack CJ
Card Descriptions and Wiring Manual
DSR 6
CD 1
DTR 4
OR
2 Tx
3 Rx
7 0V
CTS 8
RTS 7
2 Rx
3 Tx
5 0V
PC : 9 Way Female
DSR 6
CTS 5
RTS 4
CD 8
DTR 20
PC : 25 Way Female
Printer : 25 Way Male
To PC or Printer
INT2
M
K
G
K
M
G
ENTRELEC
84233-11
P+ P- 0V 5V V- V+
2) This connection diagram is also applicable for the models 1030, 1040, and 1050.
0V +V
8.5 to 28V DC
E
B
D
A
C
D7
D6
D5
D4
D3
PORT 1
0V
1010
D3
D4
Rx+
A
C
D5
Rx-
D
Power
Connector
Link Settings
(underside)
D6
Tx+
B
RS422
PORT 1
D7
1010
Tx-
Shielded twisted pairs with
individual screen and
overall screen. See Note 1.
E
ENTRELEC 84233-11
120 Ohm
220 Ohm
No termination
INT1 selects the line
termination resistor
value.
NOTES
1) Tx+ must be paired with Tx-, Rx+ must be paired with Rx-.
ENTRELEC
84233-11
RS232
INT3
INT1
Internal Link Settings
Model 1010 Communication Cables
3.3 1010 to PC/Printer (RS232) via ENTRELEC 84233-11
Converter
3.3.1 RS 422: 2 Twisted Pairs + 0V
3-5
3-6
Model 1010 Application Pack CJ
Card Descriptions and Wiring Manual
DSR 6
CD 1
DTR 4
To PC
OR
2 Tx
3 Rx
7 0V
2 Rx
3 Tx
5 0V
9 Way Female
CTS 8
RTS 7
DSR 6
CTS 5
RTS 4
CD 8
DTR 20
25 Way Female
INT2
L
M
K
G
L
K
M
G
C
A
D
8.5 to 28V DC
0V +V
P+ P- 0V 5V V- V+
RS485
ENTRELEC
84233-11
D, E
A, B
C
D12
D11
D10
PORT 2
0V
1010
D17
D16
D15
PORT 3
D10
D11
Rx+/Tx+
B
Power
Connector
Link Settings
(underside)
D12
PORT 2
1010
Rx-/Tx-
Shielded twisted pair with
individual screen and
overall screen.
E
ENTRELEC 84233-11
120 Ohm
220 Ohm
No termination
INT1 selects the line
termination resistor
value.
NOTES
1) This connection diagram is also applicable for the models 1030, 1040, and 1050.
ENTRELEC
84233-11
RS232
INT3
INT1
Internal Link Settings
PORT 3
D15
D16
D17
Model 1010 Communication Cables
3.3.2 RS 485: 1 Twisted Pair + 0V
Part No.: 4418008 - Revision 1
Part No.: 4418008 - Revision 1
1
Power Jack
5VDC
Centre Positive
2
Use 25M/25M converter
or 9F-25M way converter
for connection to PC.
To PC or Printer
Model 1010 Application Pack CJ
Card Descriptions and Wiring Manual
4
5
6
7
8
RS422 Ports (x8)
25 Way Female
14
3
7
2
NOTES
1) Tx+ must be paired with Tx-, Rx+ must be paired with Rx-.
) hi
i di
i l
li bl f h
d l
ADVANTECH PCL8442
3
RS232 Ports (x8)
25 Way Female
16
Connect to any
RS422 Port on
ADVANTECH
PCL8442
25 Way Male
d
RS422
Shielded twisted pairs with
individual screen and
overall screen. See Note 1.
D3
D4
0V
D5
Rx+
D6
D7
PORT 1
Rx-
Tx+
Tx-
1010
Model 1010 Communication Cables
3.4 1010 to PC/Printer (RS232) via ADVANTEC PCL8442
RS 422: 2 Twisted Pairs + 0V
3-7
3-8
B TxD 9
B RxD 11
2 A TxD
4 A RxD
8 GND
15 Way Male
To Printer
Model 1010 Application Pack CJ
Card Descriptions and Wiring Manual
1010
D5
D4
D3
Rx+
0V
D6
Tx+
Rx-
D7
Tx-
PORT 1
NOTES
1) Tx+ must be paired with Tx-, Rx+ must be paired with Rx-.
2) Tally printer must have RS422 interface installed.
3) This connection diagram is also applicable for the models 1030, 1040, and 1050.
RS422
Shielded twisted pairs with
individual screen and
overall screen. See Note 1.
Model 1010 Communication Cables
3.5 1010 to Tally Printer (RS422)
RS 422: 2 Twisted Pairs + 0V
Part No.: 4418008 - Revision 1
Part No.: 4418008 - Revision 1
DSR 6
CTS 5
RTS 4
CD 8
DTR 20
Model 1010 Application Pack CJ
Card Descriptions and Wiring Manual
RS232
D1
D3
0V
D2
Rx
Tx
D10
D8
D9
PORT 1 PORT 2
1010
NOTES
1) Suitable for ALL printer types (TM295, Tally, or 80 column text printer).
2) Tally printer must have RS232 interface installed.
3) This connection diagram is also applicable for the models 1030, 1040, and 1050.
2 Tx
3 Rx
7 0V
PC : 25 Way Female
Printer : 25 Way Male
To PC or Printer
D15
D13
D14
PORT 3
Model 1010 Communication Cables
3.6 1010 to PC/Printer (RS232)
3-9
3 - 10
Model 1010 Application Pack CJ
Card Descriptions and Wiring Manual
0V +12V
From 12V DC
Power Supply
+12V 14
RS232
20 DTR
RS232
NOTES
1) Aux port of RFI-9256 used only when configuring the modem.
2) Modem settings depend on installation. Refer to RFI-9256 documentation.
3) This connection diagram is also applicable for the models 1030, 1040, and 1050.
Rx (Auxiliary Modem Port)
Tx (Auxiliary Modem Port)
Rx (Main Modem Port)
Tx (Main Modem Port)
0V
DTR
Tx
Rx
CD
5
4
3
2
5
4
3
2
1
13 0V
CTS 8
RTS 7
DSR 6
CD
0V
DSR
CTS
RTS
Rx
Tx
0V 25
OR
25 Way Female
8
7
6
5
4
3
2
25 Way Female
To RFI-9256
9 Way Female
To PC (Note 1,2)
0V
Rx
Tx
D3
D10
D8
D9
D2
D1
PORT 2
PORT 1
1010
D15
D13
D14
PORT 3
Model 1010 Communication Cables
3.7 1010 to RFI-9256 Radio Modem (RS232)
Part No.: 4418008 - Revision 1
Part No.: 4418008 - Revision 1
0V
+12V
From 12V DC
Power Supply
+12V 14
RTS 15
4.7 kOhm 0.25W
1N4148
1N4148
20 DTR
8 CD
7 0V
RS232
Model 1010 Application Pack CJ
Card Descriptions and Wiring Manual
NOTES
1) Aux port of RFI-9256 used only when configuring the modem.
2) Modem settings depend on installation. Refer to RFI-9256 documentation.
3) This connection diagram is also applicable for the models 1030, 1040, and 1050.
Rx (Auxiliary Modem Port)
Tx (Auxiliary Modem Port)
Rx (Main Modem Port)
Tx (Main Modem Port)
0V
DTR
Tx
Rx
CD
5
4
3
2
5
4
3
2
1
13 0V
CTS 8
RTS 7
DSR 6
DSR
CTS
RTS
Rx
Tx
0V 25
OR
25 Way Female
To PC (Note 1,2)
6
5
4
3
2
25 Way Female
To RFI-9256
9 Way Female
RS232
RS232
0V
Rx
Tx
D3
D10
D8
D9
D1
PORT 2
D2
1010
D10
D8
D9
PORT 2
PORT 1
D3
D1
Rx
0V
D2
Tx
PORT 1
1010
D15
D13
D14
PORT 3
D15
D13
D14
PORT 3
Model 1010 Communication Cables
3.8 Multiple 1010s to RFI-9256 Radio Modem (RS232)
3 - 11
Model 1010 Communication Cables
3.9 PC to RFI-9256 Radio Modem (RS232)
To PC (Note 1,2)
9 Way Female
25 Way Female
20 DT R
CTS 8
RTS 7
DSR 6
OR
8
7
6
5
4
3
2
CD
0V
DSR
CTS
RTS
Rx
Tx
5
4
3
2
1
0V
DTR
Tx
Rx
CD
RS232
To PC
25 Way Female
To RFI-9256
25 Way Female
CD 8
DT R 20
0V 25
7 0V
DSR 6
CT S 5
RT S 4
13 0V
RS232
3 Rx
2 Tx
OR
9 Way Female
Rx (Auxiliary Modem Port)
T x (Auxiliary Modem Port)
Rx (Main Modem Port)
T x (MainModem Port)
5 0V
DT R 4
DSR 6
CD 1
CT S 8
RT S 7
5
4
3
2
1 +12V
3 Tx
2 Rx
+12V 0V
From 12V DC
Power Supply
NOT ES
1) Aux port of RFI-9256 used only when configuring the modem.
2) Modem settings depend on installation. Refer to RFI-9256 documentation.
3 - 12
Model 1010 Application Pack CJ
Card Descriptions and Wiring Manual
Part No.: 4418008 - Revision 1
Part No.: 4418008 - Revision 1
To PC
Use shielded RS232 cable
wired straight through
(ie: pin 1 to pin 1, pin
2 to pin 2, etc) with
9-25 way converters
if required.
Model 1010 Application Pack CJ
Card Descriptions and Wiring Manual
Internal Switch Settings
SW1 (See Note 1)
1
OFF
2
ON
SW2
1
OFF
2
1200 bps
2400 bps
3
4
4800 bps
5
9600 bps
6
19.2 Kbps
7
38.4 Kbps
57.6 Kbps
8
9
115.2 Kbps
OFF
10
Select
one (1)
only
ON
RS485
RS232
+V 0V
10 to 30V DC
(R)+Vs
(B)GND
DATA+
DATA-
NOTES
1) 11 data bits, 1 start, 8 data, 1 parity, 1 stop : SW1 OFF, SW2 ON
10 data bits, 1 start, 8 data, no parity, 1 stop : SW1 ON, SW2 OFF
2) This connection diagram is also applicable for the models 1030, 1040, and 1050.
9 Way
Female
ADAM 4520
1010
PORT 3
D7
D8
D15
1010
PORT 2
D7
D8
D10
RS485 DATARS485 DATA+
GND
0V
RS485+
RS485-
ADAM 4520
RS485
Shielded twisted pair with
individual screen and
overall screen.
D10
D11
D12
PORT 2
1010
D15
D16
D17
PORT 3
Model 1010 Communication Cables
3.10 1010 (Isolated RS485) to PC via ADAM 4520 Converter
Isolated RS 485, Single Twisted Pair + 0V
3 - 13
3 - 14
Use shielded RS232 cable
wired straight through
(ie: pin 1 to pin 1, pin
2 to pin 2, etc) with
9-25 way converters
if required.
To PC
Model 1010 Application Pack CJ
Card Descriptions and Wiring Manual
W19
Operating
Mode
W17
W15
RxB
RxA
TxB
TxA
XW1A
XW1B
Oper. Mode
TERM
BIAS
W5
W8
W9
W15
W16
W17
W19
DIP Shunt (IC109A Set to DCE)
Open (No DIP Shunt)
Normal
As Required - Usually OFF
As Required - Usually OFF
A-B
B-C
C
B-C
A
E
Not Used
IC109A Link Settings
Shielded twisted pair with screen.
RxA, TxA
RxB, TxB
IC109A
PORT 3
D17
D16
D12
D11
1010
3) This connection diagram is also applicable for the models 1030, 1040, and 1050.
D10
D11
0V
D12
RS485+
PORT 2
RS485-
PORT 2
NOTES
1) A 0V connection is not available for RS485 on the IC109A.
2) If multiple 1010s are connected to an IC109A, the 0V terminals (D10,D15) of the 1010s should all be joined together.
W8 W16
TERM BIAS
XW1B
W9
W5
XW1A
25 Way Female
IC109A
RS485
1010
D15
D16
D17
PORT 3
Model 1010 Communication Cables
3.11 1010 (Isolated RS485) to PC via Black Box IC109A
Converter
Isolated RS 485, Single Twisted Pair
Part No.: 4418008 - Revision 1
Part No.: 4418008 - Revision 1
Model 1010 Application Pack CJ
Card Descriptions and Wiring Manual
DSR 6
CD 1
DTR 4
To PC
OR
2 Tx
3 Rx
7 0V
2 Rx
3 Tx
5 0V
9 Way Female
CTS 8
RTS 7
DSR 6
CTS 5
RTS 4
CD 8
DTR 20
25 Way Female
INT2
L
M
K
G
NOTES
L
K
M
G
C
A
D
D, E
A, B
C
ENTRELEC
84233-11
RS485
1010
PORT 3
D17
D16
D15
D12
D11
D10
PORT 2
0V
RS485+
Power
Connector
Link Settings
(underside)
RS485-
B
Shielded twisted pair with
individual screen and
overall screen.
E
ENTRELEC 84233-11
120 Ohm
220 Ohm
No termination
INT1 selects the line
termination resistor
value.
This connection diagram is also applicable for the models 1030, 1040, and 1050.
ENTRELEC
84233-11
RS232
INT3
INT1
Internal Link Settings
D10
D11
D12
PORT 2
1010
D15
D16
D17
PORT 3
Model 1010 Communication Cables
3.12 1010 (Isolated RS485) to PC (RS232) via ENTRELEC
84233-11 Converter
Isolated RS 485, Single Twisted Pair + 0V
3 - 15
Model 1010 Communication Cables
3.13 1010 to EFT Mini-Pak Additive Injector
3 - 16
Model 1010 Application Pack CJ
Card Descriptions and Wiring Manual
Part No.: 4418008 - Revision 1
Model 1010 Communication Cables
3.14 1010 to RTD (PT100)
1010
RTD
Shielded twisted pair with
individual screen and overall screen.
RTD Source
RTD Sink
RT
(PT100)
RTD Sense +
RTD Sense -
3.15 1010 to NexWatch DR4208S Card Reader
NexWatch DR4208S
card reader
S-NET B
S-NET A
1010
Shielded twisted pair with
individual screen and overall screen.
white
green
PORT 2
PORT 3
Tx-/Rx-
D12
D17
Tx+/Rx+
D11
D16
RS485
Supply ground,
S-NET DC return
Positive supply
black
0V
D10
D15
red
+
-
Power Supply
10.8 – 28 V DC
(250 mA max)
Part No.: 4418008 - Revision 1
Model 1010 Application Pack CJ
Card Descriptions and Wiring Manual
3 - 17
Model 1010 Communication Cables
Intentionally left blank.
3 - 18
Model 1010 Application Pack CJ
Card Descriptions and Wiring Manual
Part No.: 4418008 - Revision 1
CHAPTER 4 SOLID STATE RELAYS
Solid State relays are an ideal method of switching high use equipment
such as digital control valve solenoids and additive systems. There is
practically no limit to the number switching operations compared to
electro-mechanical relays.
The following outputs are Solid State relays:


The control valve (both digital and on/off)
The 240 Vac additive
The following outputs are normally electromechanical relays, but can be
delivered as Solid State relays if required:


Pump control outputs
Gantry isolation valve outputs
Solid state relays are semiconductor switches which electronically
switch the power on and off, rather than using an electro-mechanical
contact.
The advantages of Solid State relays are:




Long life
Elimination of contact arcing and pitting
No contact bounce, thereby reducing electrical transients inside the
instrument
Faster switching times.
The Solid State relays are particularly important when controlling digital
control valves since the control solenoids on these valves are
continually being switched on and off to control the flow rate. Using
normal moving coil relays in this application would lead to reduced life
expectancy.
When applying the Solid State relay, the following output parameters
must be observed:
Minimum Voltage across relay:
24 VAC Min
Maximum Voltage across relay:
280 VAC Max
AC/DC Switching:
AC Only, (do not apply DC)
Maximum Current:
1 Amp AC
Maximum Surge Current:
1.5 Amp AC
Leakage Current:
20 mA AC Max
Most digital control valves meet these specifications, but some care
must be taken when driving relays or contactors etc, particularly in
relation to the leakage current, which is of particular concern in
intrinsically safe solenoids.
Unless the load has a holding current greater than 20 mA it may not
release. For example, when a relay is first turned on it takes a large
amount of current (called the Pickup current) to move the contacts.
Part No.: 4418008 - Revision 1
Model 1010 Application Pack CJ
Card Descriptions and Wiring Manual
4-1
Solid State Relays
Once the relay has been activated it takes far less current (the holding
current) to hold the contacts in the active state, called the Holding
current.
If a relay had a pickup current of 30 mA and a holding current of 15 mA,
the leakage current through the solid state relay would not be enough to
activate the relay, but would be enough to hold the relay in the active
state, even if the solid state relay was turned off, as the leakage current
is always present.
Alternatively, a resistor or other load may need to be placed in parallel
across the coil. The resistor diverts some of the leakage current away
from the coil so that the relay will deactivate.
4-2
Model 1010 Application Pack CJ
Card Descriptions and Wiring Manual
Part No.: 4418008 - Revision 1
GLOSSARY
authorisation Type of authorisation. Can be PIN, touch key, RF ID, or NexWatch. For
more information, see chapter 8 “Authorisation Entry Mode” in the
1010CJ Programming Manual.
authorisation number A number that is programmed into the instrument to allow access to the
instrument after presenting authorisation.
batch Individual loading of product using a single loading arm.
BOL Bill of Lading. A document that is used to acknowledge the receipt of a
shipment of goods.
computer A computer, Distributed Control System (DCS), Load Rack Computers
(LRC), or Terminal Automation System (TAS) that is attached to an
instrument.
entry term formally used to describe a batch
extended wait period Time, in addition to the wait period, required because a command
prevents the instrument responding for an extended time.
instrument A 1010 Loading System.
References to 1010-1 (Single arm unit), 1010-2 (two arm unit) and
1010-4 (four arm unit), relate to those models of the generic Model 1010
loading system.
intelligent additive An automated additive injection system that connects to the instrument
injection by a serial communications port. Mini-Pak is one example of this.
load See also “batch”
Honeywell Enraf See “Mini-Pak”
Mini-Pak
Mini-Pak An automated additive injection system.
OIML International Organization of Legal Metrology
proving run One completed batch or loading operation carried out with the
Automated Proving Mode enabled.
service display Two line display that shows the loading information for a selected
parameter for the selected arm.
unathorised flow Flow that is recorded by a meter without being authorised (by an
operator pressing the START key button).
Part No.: 4418008 - Revision 1
Model 1010 Application Pack CJ
Card Descriptions and Wiring Manual
Glossary - 1
unit address The address byte a computer uses to direct information to the desired
instrument
wait period The time the computer waits for a response after sending a command to
the instrument. Generally 300 millisecond.
See also “extended wait period”.
Weights and Measures A switch that is mounted on the instrument exterior, that be fitted with a
switch lead tamper seal for W&M requirements.
On the Model 1010A the switch is located on the lower right-hand side
of the enclosure.
Glossary - 2
Model 1010 Application Pack CJ
Card Descriptions and Wiring Manual
Part No.: 4418008 - Revision 1
Honeywell Enraf
2000 Northfield Court,
Roswell, GA 30076
U.S.A.
Tel: +1 770 475 1900
Email: enraf-us@honeywell.com
www.honeywellenraf.com
4418008 - Revision 1
October 2008
© 2008 Honeywell International Inc.