front.eps - Data Weighing Systems

front.eps - Data Weighing Systems
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INSTRUCTION MANUAL
Owners-AD-4323-v.3.d 91.10.09 TES
WEIGHING INDICATOR
&D Company, Limited
O Check Weighing Mode « F-70 = “1"
Control I/O External Interface * Check Mode (F-70 ="1") ........ Page 64
Setpoint «Check Comparison Mode 1 (F-70 = "1", F-15 = "1") ..
)
Setpoint «Check Comparison Mode 2 (F-70 = "1", F-15 = "2") .. Page 68
Setpoint «Check Comparison Mode 3 (F-70 = "1", F-15 = "3") .. Page 71
Setpoint «Check Comparison Mode 4 (F-70 = "1", F-15 = "4") .. Page 74
Setpoint «Check Comparison Mode 5 (F-70 = "1", F-15 = "5") . Page 77
Set Weight Value View Mode cernes Page 78
Standard Serial Output .................—.. eee cran se cree er enen eee Page 80
Options _
Parallel BCD Output (Option OP-01) ................ eee Page 82
RS-232C Interface (Option OP-04) ....................eeeiiiiii ee Page 84
Setpoint Unit (Option OP-05) ee Page 88
Analog Output (Option OP-07) ...................m———— fe, Page 92
Dimensions cece eee Page 94
Page 2 Owners-AD-4323-v.3.d
—
COMPLIANCE WITH FCC RULES
Please note that this equipment generates, uses and can radiate radio
frequency energy. This equipment has been tested and has been found to
comply with the limits of a Class A computing device pursuant to Subpart J of
Part 15 of FCC rules. These rules are designed to provide reasonable protection
against interference when equipment is operated in a commercial environment.
If this unit is operated in a residential area it might cause some interference and
under these circumstances the user would be required to take, at his own
expense, whatever measures are necessary to eliminate the interference.
(FCC = Federal Communications Commission in the U.S.A.)
Owners-AD-4323-v.3.d Page 3
CONTENTS
FCC Rules oer, Page 3
Introduction
Introduction .....................rerererreesere ree eee Re eee. Page 6
Features ...................eereerrcicic ice een ere errr ee ae se eesti Page 6
Front Panel Description ..................-...—...—.e- 0... eco EN KK EETEE Page 7
Rear Panel Description ..................=....ee..ee0 ree Page 9
Specifications .................. eo. Nerenonenvonereraooeaeccenoeoceecreneee Page 10
Installation
General Rules eevee erect eee cesses esr ae, Page 16
Load Cell Connection ........ Deccorererneereren ee sen eree eee een evene Page 17
Load Cell and Input Sensitivity... 2... Page 17
Quick Install .….…..…................….…rsserrsrseraseserarenereresrensanseneananse resserre Page 18
Display Example Resolution Table ess. Page 21
Calibration
items In The Full Calibration Procedure esse Page 23
Calibration FlOwchait ee Page 25
Full Calibration Procedure …….....….....……rrrererernnnnnnn Page 26
ZERO CAL 8 Fine SPAN Adjustment ere Page 29
Calibration Errors ...............—..........eeericer e ever eee a nee Page 31
F-Functions
About Changing the F-Functions …….….…...…...….…..….….……eess Page 33
Changing the F-Functions Procedure .................. PS Page 34
Errors - Changing the F-Functions.................................——.——— Page 35
A Note Concerning Batch vs Check Weighing ...................... Page 36
F-Functions Listed ........................eeereermeceerereere ee DAA Page 37
The F-Functions and their Settings ...................................._ Page 39
I/O Interfacing
О Batch Weighing Mode - F-70 = "0"
Control I/O External Interface * Batch Mode (F-70 ="0") ........ Page 51
Setpoint External Interface « Batch Mode (F-70 = "0") ............. Page 52
Timing - Normal Batching (F-70 = "0", F-15="1") ............. ene... Page 54
Timing - Loss-In Weight (F-70 = "0", F-15 ="2") ........................... Page 56
Timing - Normal Batching (F-70 = "0", F-15 ="3") ....................... Page 58
Timing - Loss-In Weight (F-70 = "0", F-15 ="4") ................ e... Page 61
©A&D Co. Ltd., international Division (1991) 91.10.09 TES
AD-4323 Weighing Indicator Instruction Manual v.3.d
AD-4323 Weighing Indicator
Introduction
Owners-AD-4323-v.3.d Page 5
THANK YOU FOR YOUR A&D PURCHASE
This is an INSTRUCTION MANUAL for the AD-4323 Weighing Indicator. The
AD-4323 is the product of years of design, development, and in-field testing. It
is designed to withstand harsh environmental conditions — and each indicator
is subjected to several levels of quality control before it leaves the factory.
Every care has been taken during the manufacturing process of this indicator
to ensure that it will perform accurately and reliably for many years.
INTRODUCTION
The AD-4323 is the choice for dynamic and static weighing
applications requiring. quality, performance and economy.
Extraordinary speed, accuracy and reliability set the AD-4323 Indicator apart
from every other unit in its class. High-speed 70 times per second sampling
makes the AD-4323 ideal for dynamic weighing applications. The built-in
setpoint connector permits the easy attachment of the optional Setpoint Unit to
make the AD-4323 the heart of a simple, but very effective weighing controller
system for batch weighing platform setups.
Like every A&D indicator, the AD-4323 is designed for flawless performance in
demanding industrial applications. The analog section is completely sealed
against RF! interference and A&D's Watchdog™ circuitry automatically resets the
unit if a software crash starts to develop for uninterrupted weighing. A sealed
front panel keeps out dirt, and the large fluorescent blue display can be easily
read in any light. Housed in a rugged case, the AD-4323 is designed for easy
panel mounting.
Modern industry demands equipment that is both versatile and easily
connectable to other devices. Optional RS-232C and BCD interfaces are
available to connect the AD-4323 to computers and printers. A&D offers a
number of high-quality printers to satisfy a wide range of hard copy
requirements.
FEATURES
High speed A/D converter - up to 70 times per second.
Simple calibration via FDC (Full Digital Compensation) function.
WATCHDOG circuitry virtually eliminates malfunctions commonly
associated with computerized equipment.
Screened against RFI (Radio Frequency Interference).
AD-4323 with option OP-05 (Setpoint Unit) may be operated anywhere.
Convenient optional interfaces, parallel BCD (Binary-Coded-Decimal)
and serial RS-232C/Current Loop (Passive).
OU High A/D resolution and high accuracy.
DOO
UOC
Page 6 Owners-AD-4323-v.3.d
FRONT PANEL DESCRIPTION
AD-4323 WEIGHING INDICATOR
G888888/28|| ©
ZERO MD GROSS NET to
TARE NET STANDBY
GROSS OPERATE
Ae O |
aan [===] The STANDBY/OPERATE Key
This key switches the unit between STANDBY and OPERATE mode. While in
STANDBY mode - the display will go OFF and all data output will stop. The power
cord must be removed to disconnect power to the AD-4323.
ZERO [Бе = The ZERO Key
The ZERO key returns the display to the center of ZERO when the weighing
device is empty (user selected within +2% or 10% of the maximum capacity),
and motion is not detected (MD annunciator is not on). It should not be confused
with the TARE key which re-ZERO's the display and switches to NET mode.
| TARE EE The TARE Key
The TARE key switches to NET mode, ZERO's the display, чу’
stores the TARE weight in memory (if motion is not NET ENTERED
detected) and the TARE ENTERED Annunciator will light.
Maximum TARE value is Max. Capacity, regardless of the decimal point position
(if any). Max. Capacity is also the maximum display value which can be stored
as TARE when in GROSS mode.
Led
FE The NET/GROSS Key
AVN
CEE
The NET/GROSS key switches between the two modes. vw
| | ЕТ
Ш annunciators and display will alternate between N GROSS МЕТ
PRINT == The PRINT Key
The PRINT key transmits to printer via Option OP-01 (BCD output) or Option
OP-04 (RS-232C interface) and Standard Current Loop.
Owners-AD-4323-v.3.d Page 7
ww
ZERO
ww
MD
v
GROSS
vv
NET
vw
TARE
ENTERED
1b @
USA version only
ко ©
t ©
International
version only
The ZERO Annunciator triangle will appear when the display is
showing the center of ZERO.
The MD (Motion Detection) Annunciator triangle will appear when
the display is unstable due to weighing device motion.
The GROSS Annunciator triangle will appear when the display is
in the GROSS mode, the display showing the GROSS weight.
The NET Annunciator triangle will appear when the display is in
the NET mode, the display showing the NET weight.
The TARE ENTERED Annunciator triangle will appear when a
"TARE weight has been entered.
1
2
3
САР. №
SEC. M
The Ib Annunciator light will appear when the AD-4323 is in the
pound weighing mode - the displayed weight is in pounds.
note: Ib/kg version only (USA).
The kg Annunciator light will appear when the AD-4323 is in the
kilogram weighing mode - the displayed weight is in kilograms.
The t Annunciator light will appear when the AD-4323 is in the
tonne weighing mode - the displayed weight is in
tonne. note: International version only.
There are three dip-switches behind the front panel (removed by
the Front Panel Cover Screw). === Front
1) Dip-switch no. 1 moves the AD- == Panel Cover
4323 into View Mode (seep.76). | rs “crew
2) Dip-switch no. 2 moves the AD-4323 into Calibration
Mode.
3) Dip-switch no. 3 moves the AD-4323 into F-Function Mode.
In the space provided, the owner should mark the AD-4323's set
weighing (max.) capacity, and minimum division.
In the space provided, the owner should mark the AD-4323's
section weight specification. с.
To Clear ZERO and TARE Memories |
ILL To clear the ZERO and TARE
TARE [720 G\ | STANDBY memories: Start with the display OFF.
CASA NOPERATE Lo
! 2 Press and hold the TARE key.While
holding the TARE key, press the
STANDBY/OPERATE key.
Page 8 Owners-AD-4323-v.3.d
REAR PANEL DESCRIPTION
ANALOG OUT C DATA OUT
LOAD CELL FUSE AC В
HE DE Os)
O
mo Os!
O O SERIAL OUT
CONTROL VO
5» SET POINT
|
v
50
O Load Cell connector.
@ Ib + kg switch (USA version) or front panel keys enable <> front
panel key disable switch (International version).
Mode USA International
O O be .
1 1 2 | b weighing Disable Front Panel Keys
O O Lo
21 4 a Kg weighing Enable Front Panel Keys
O Fuse Holder
(screw counter-clockwise for removal)
Line Voltage Fuse
AC 100V -120V 0.5A
AC 220V -240V 0.3A
O Three prong Power Connector with ground.
e Setpoint Connector.
device.
To connect with Option OP-05 or similar setpoint
O Control I/O Connector. To connect with weighing equipment accepting
control signals.
O Current Loop Serial Outlet Connector for Printer, external display.
O Optional OP-07
O Optional OP-01
Analog Output Connector. 4.>20mA.
Open-collector output.
O Optional OP-04
Parallel Binary-Coded-Decimal BCD Output Connector.
Serial Interface Connector. Two types of serial interface
are available with this option: 1) EIA-RS-232C. 2) 20mA
current loop (passive).
Owners-AD-4323-v.3.d
Page 9
SPECIFICATIONS |
ME ANALOG INPUT and A/D CONVERSION |
Input Sensitivity
up to 0.6uV/D (D="min. division" or "graduation”)
ZERO Adjustment Range
0.35mV-24mV
Max. Load Cell Input Volt.
36mV
Load Cell Excitation
12V DC + 5% 280mA
ZERO Temperature Comp.
+(0.2uV + 0.0008% of Dead Load)/°C TYP
Span Temperature Comp.
+ 0.0008% / *C TYP
Non-Linearity 0.01% F.S.
Input Noise + 0.31 Vp-p
input Impedance 10 MQ
A/D Conversion Method
3 phase, true integrating dual-siope type
A/D Resolution
96,000 Counts Max.
A/D Conversion Rate
approx. 70 times/second (14 m sec/conversion)
B DIGITAL SECTION
Weighing Display
——
High intensity 7-segment, cobalt-blue fluorescent
Display Height
13mm (1/2")
Minimum Division
times 1, x2, x5, x10, x20, x50
Maximum Display
"+500450
Under ZERO Indication
"=" minus sign
"ZERO" Y Annunciator
Center of ZERO (0+0.17D)
"MD" Y Annunciator
Motion Detection
"GROSS" Y Annunciator
GROSS Mode
"NET" Y Annunciator
NET Mode
"TARE ENTERED" Y Annun.
Tare has been entered
"Ib" O Annunciator
Pounds Displayed (Ib or kg version)
"kg" 6 Annunciator
Kilograms Displayed
"t" 96 Annunciator
Tonne Displayed (kg or t version)
STANDBY / OPERATE KEY
Activates display and functions.
ZERO Key
ZERO's the Display when stable.
TARE Key
Tare when stable - in NET mode, display ZERO.
GROSS / NET Key
Changes from "GROSS" to "NET" and vice versa.
PRINT Key
Send print command to printer via current loop
OP-01 or OP-04.
Page 10
Owners-AD-4323-v.3.d
| (J GENERAL | |
Power Requirements
100,115,220,240V AC +10%,-15% 50/60Hz
NET Welght
Approx. 3kg (6.61b)
Operating Temperature
-5%C to 40% (23°F to 104°F)
Maximum Humidity
85% (non-condensing)
Physical Dimensions
192(W)x187(D)x96(H)mm 7.56"x7.36"x3.78"
Memory Battery Back-up
6 years or more without AC power (lithium).
| J STANDARD ACCESSORIES quantity |
Load Cell Connector
1
Serial Outlet Connector
1
Setpoint Connector
1
Control 1/0 Connector
Fuse: 100 or 120 V AC = 0.5A; 220 or 240 V AC = 0.3A 1
Power Cable
Capacity Sticker
Rubber Feet
(J OPTIONS | |
——eoo—]—]É—e———— —]—l]H-————————————————;———]———;——————;—;—]]]
Option OP-01
Parallel BCD (Binary-Coded-Decimal) output (DATA
OUT). Output data: weight, NET/GROSS, MD
Decimal point, Ib, kg, (1), print trigger, overload.
Option OP-04
Serial Interface. Two types of serial interface are
available with this option:
1) ElA-RS-232C, with or without handshake.
2) 20MA current loop (passive).
Baud Rate & Format are identical to RS-232C.
Option OP-05
Setpoint Unit. Independent unit in separate metal
casing. The unit can be directly interfaced via an
attached cable and connector. Final Weight
(Target), Free Fall, Preliminary Weight (cut-off
point), and High/Low Limit.
Option OP-07
Analog output (current).
Owners-AD-4323-v.3.d
Page 11
| (J WEIGHT CONVERSION TABLE |
One kg = 2.204 62 Ib(avoir) approximately.
One Ib = 0.453 59kg.
One t = tonne 1,000kg (Metric Ton) or 2,204.62 Ib approximately.
= ton, long: (20 cwt) 2,240 Ib or 1,016.05kg approximately.
= ton, short: 2,000 Ib or 907.18kg approximately.
= tun 216 imp. gal. (ale), 252 imp. gal. (wine). "weight"=volume x density.
One imp. gal. of distilled water at 62*F=10 Ib=4.536kg but also equals
about 4.546 liters/dm3/kg at 4°C. One liter of water at 4°C equals 1kg.
One US gal. is about 5/6 of an imp. gal. or about 3.785 liters.
| № F-FUNCTIONS and SETTINGS |
F 01 Decimal Point Adjustment Displays to 1,2,3 or 4 decimal places.
F 02 Weighing Unit Selection "Ко" "1" (Not USA version)
F 03. Display Update Rate 17 times/sec, 4 times/sec.
F 04 Digital Filter Week <> Strong.
F 05 Set ZERO Range 2% or 10% of Maximum Capacity.
F 06 Motion Detection Condition 0.5 sec, 1 count — 1 sec, 9 counts
F 07 Auto. ZERO Track. Comp. 1 sec, .5 division — 2 sec, 4.5 division
F 08 Holding Mode Normal Hold, Peak Hold
F 09 Comparison Result Output Normal Output, Locked w/ Dispiay
F 10 Pulse Width of FINISH signal 0.1 sec > 2.0sec
F 11 ZERO Band Selectable (enter weight)
F 12 Optional Preliminary Weight Selectable (enter weight)
F 13 Timer - Comparator Inhibiter 0.1 to 2.0 seconds or Disable.
F 14 | Automatic Free Fall Comp. Set Weight or Disable.
F 15*| Measurement Mode Normal, Loss-in Batching. *When F-70="0"
F 15*| Comparison Mode Modes 1-5. "When F-70="1",
F 16 TARE & ZERO keys Availability] Stable or Always Working (Not USA version).
F 17 TARE key. Availability Avail. N. A. at Minus Gross (Not USA version)
F 18 Timer - Finish Signal Set between 0.1 sec. and 9.9 sec.
F 19 N. A. N. A.
DO Front Panel Keys
F 20 Panel Key Disable Selection | Enable/Disable Selection (Not USA version) |
Page 12 Owners-AD-4323-v.3.d
| Q For Standard Current Loop |
Q For BCD Option OP-01
F 21 Baud Rate 600, 2400 Baud.
F 22 Output Data Display, GROSS, NET, Tare or
Gross+Net+Tare
F 23 Output Mode Stream, Auto Print, PRINT key.
F 24 Output Availability Always Available, or Stable Only
F 25— 30 N. A.
Q For Serial Interface Option OP-04
F 41 Baud Rate
F 31 Output Data Display, GROSS, NET, or Tare Data.
F 32 Output Mode Stream, Auto Print, PRINT Key.
F 33 Output Logic Positive Logic, Negative Logic.
F34—40 N. A.
600, 1200, 2400, 4800, 9600.
F 42 Output Data
Gross+Net+Tare Data (also update rates).
Display, GROSS, NET, Tare or
F 43 Output Mode Stream, Auto Print, Print Key, Command.
F 44 Output Availability Always Available, Only when Stable
F 45— 50 N. A.
| Q For Analog Option OP-07 ]
F 51 Analog Output Data Display, Gross, or Net Data.
F 52 Output current at display ZERO 0.0mA through 99.9MA.
F 53 Output current at Full Scale 0.0mA through 99.9mA.
F 54760 | N. A.
| Q For Check Weighing |
Owners-AD-4323-v.3.d
QO Weighing Mode |
| F 70 | Weighing Mode
F 61 High High Limit Weight Input the Weight.
F 62 High Limit Weight Input the Weight.
F 63 Low Limit Weight Input the Weight.
F 64 | Low Low Limit Weight “Input the Weight.
F 65-69 N. A.
Page 13
Batch Weighing, Check Weighing
This page blank
Page 14 Owners-AD-4323-v.3.d
По 5
AD-4323 Weighing Indicator
Installation
Owners-AD-4323-v.3.d Page 15
UO CO с
GENERAL RULES
Don't install the AD-4323 in direct sunshine. Avoid sudden temperature
changes, vibration, wind, water, or excessive dirt.
Best temperature is about 20°C/68°F at about 50% Relative Humidity.
Earth the AD-4323 via the power cable to the rear terminai. Ensure a good
earth connection. Do not earth directly to other equipment.
Analogue input/output signals are sensitive to electrical noise. Do not bind
these cables together as it could result in cross-talk interference. Please also
keep them well away from AC power cables. Keep all cable/coax as short as
possible.
If the local AC electricity supply fluctuates by more than +10% an AC
regulator must be used to stabilize the power supply.
Page 16 Owners-AD-4323-v.3.d
LOAD CELL CONNECTION
Attention
О Use a six wire cable with shield. If the AD-4323 is located near the
Load Cells (within a few yards or meters) you may use a 4 wire cable
with shield, but first connect pins 1 & 2 and 3 & 4 with independent
jumper leads.
Q The analogue output from the Load Cell and the RS-232C
input/output signals are sensitive to electrical noise. Do not bind
these cables together as it could result in cross-talk interference.
Please also keep them well away from AC power cables.
am,
EXC + | FAR
Po
: ; Load Cell
Connector
SIG + SIG — | —
: 4 (rear panel)
} 4 LOAD CELL
; ; a O
À / 3
NA
Boo Cable O
SHD
EXC = (Shield)
Load Cell Connections
Pin Signal Pin Signal
1 Positive Excitation Voltage (EXC+) | 5 | Positive Signal Voltage (SIG+)
2 Positive Sense Voltage (SEN+) || 6 | Negative Signal Voltage (SIG-)
3 | Negative Sense Voltage (SEN-) | 7 | Shield (SHD)
4 | Negative Excitation Voltage (EXC-)
LOAD CELL AND INPUT SENSITIVITY |
The relationship between Load Cell and Input Sensitivity (X) for the AD-4323 is
as follows:
О Example: Load Cell Capacity 100kg "A"
Rated Output 3mV/vV "B"
Max. Capacity of Platform 50kg "С"
Min. Division of Display 0.01kg "d
Excitation 12V "EXC"
QO Actual Load Cell Range Used ("a"%) is: (50kg/100kg) x 100 = 50%
О When a single Load Cell without a lever is used, the following
formula should apply: "X" = ("a"/100) * "EXC"*"B"*1,000*("d"/"C")uV
O System design will be satisfactory if "X" is between 0.6uV and
36uV. Inthe example above "X"= 3.6uV.
Owners-AD-4323-v.3.d Page 17
QUICK INSTALL
This section is for those users who wish to simply get the AD-4323 up and
working for simple use or testing. If you are going to be using the AD-4323 in a
more complicated system, or unusual environment, you may want to study the
CALIBRATION section before installation or testing. If you are unfamiliar with any
of the terms below, you will find explanations in the ITEMS IN THE FULL
CALIBRATION PROCEDURE section, page 21, CALIBRATION section.
If you wish to change one of the sections below, please use the instructions in
the ITEMS IN THE FULL CALIBRATION PROCEDURE and THE FuLL CALIBRATION
PROCEDURE in the CALIBRATION section. This section is just intended for the
initial installation.
Ш Unpack the AD-4323:
Remove the AD-4323 unit from its packaging - please check that all items on the
packing list are included before discarding packaging.
MN Connect to Load Cell(s):
Connect the AD-4323 to the Weighing Device Load Celi(s) via the back panel
Load Cell connector. See the LOAD CELL CONNECTION section on the previous
page.
Ш Connect to Power:
‘Connect the AD-4323 to power, making sure that the unit is grounded correctly.
Ш Set Minimum Division: | For reference, please see page 21
Step 1. | | stanosy —7 Have nothing on the weighing surface -
"OPERATE | Sees | Press the STANDBY/OPERATE key to turn the
| >} display ON.
Step 2. == _ Front Open the panel cover on the front of the
С} Panel Cover AD-4323 unit by unscrewing the knob - to
ее E | Screw
= expose the dip-switches.
Step 3. о 7 ri Slide the middle dip-switch (calibration) ONT.
DISPLAY | EI) "CAL " will be appear for a couple of
L IIL seconds, followed by:
| } Na "d 01" with the last digit flashing. This is
I~ / the internal Minimum Division that is
У -1N | presently entered into the AD—4323
Page 18 Owners-AD-4323-v.3.d
Step 4. | Use the NET/GROSS key to move through NET —
lat visions - stop at the —Grôss— Soe. =)
the available divisions
internal Minimum Division you want: 1, 2,
5, 10, 20, or 50 - see DISPLAY TABLE p.19.
Step 5. STANDBY
сенкс" |=
When you have selected the desired Mini-
mum Division, press the STANDBY/OPERATE
key.
E Set Maximum Capacity:
DISPLAY Г Ни
Step 6.
| For reference, please see page 21.
"CAP " will be appear for a couple of
seconds, followed by:
"C010000" with the last digit flashing. This
is the Maximum Capacity weight (10,000 ib,
kg, or t) that is presently entered into the
AD-4323
— Enter the Maximum Capacity of your weighing
device by using the keys as shown.
Step 7. STANDBY [pt
OPERATE =}. ;
When you have entered the new Maximum
Capacity, press the STANDBY/OPERATE key.
Ш Perform ZE
RO Calibration:
| For reference, please see page 21.
EN Ch |
DISPLAY PLL LI
Step 8. STANDBY || —|
P e —
"PCAL 0" will be displayed.
Press the STANDBY/OPERATE key for ZERO
Calibration.
EN Perform SPAN Calibration:
| For reference, please see page 22.
DISPLAY
Owners-AD-4323-v.3.d
Manero. "will be appear for a couple of
seconds, followed by:
"CAL SPn" (SPAN Calibration) will be
appear for a couple of seconds, followed
by:
"XXXX" here denotes the Maximum
Capacity entered in memory for SPAN.
Page 19
Step 9.
Step 10.
Step 11.
DISPLAY
Step 12.
Step 13.
DISPLAY
DISPLAY
Step 14.
Step 15.
Cest Е
o.
If you are not using Max. Capacity as your SPAN
weight - or the exact weight of the Cal. Mass is
known - enter in the weight of the calibration mass
by using the keys as shown at this time.
Place the calibration mass on the weighing device.
CEA
STANDBY
OPERATE
==,
Press the STANDBY/OPERATE key.
—
<
ana "will be appear for a couple of
seconds, followed by:
г
7 Ei)
LIIL
"CAL 0" will be displayed.
Remove the ca
libration mass from the weighing device.
STANDBY
OPERATE
Press the STANDBY/OPERATE key.
<
"авео, " will be appear for a couple of
seconds, followed by:
_ | "CAL End" will be displayed.
Replace the pa
Slide the middle dip-switch (calibration) OFF.
nel cover on the front of the AD-4323 unit.
Ш Setting the Decimal Place: |
To set the decimal place - please follow the example given in the CHANGING THE
F-FUNCTIONS procedure (page 32) in the REFERENCE section.
The example |5
how to set the decimal place.
E Problems:
If you have any problems such as error messages, please see: CALIBRATION
ERRORS (page 29); ITEMS IN THE FULL CALIBRATION PROCEDURE (page 21); and
THE FULL CALIBRATION PROCEDURE (page 24) in the REFERENCE section. Other
than that, please study the REFERENCE section, and possibly THE F-FUNCTIONS
AND THEIR SETTINGS section for specific problems.
Page 20 Owners-AD-4323-v.3.d
DISPLAY EXAMPLE RESOLUTION TABLE
Maximum
Capacity
300
400
500
600
800
1,000
1,200
1,500
‚ 2,000
2,500
3,000
4,000
5,000
6,000
8,000
10,000
12,000
15,000
20,000
25,000
30,000
40,000
50,000
60,000
80,000
100,000
120,000
150,000
200,000
250,000
300,000
400,000
500,000
Min,
1 5
1/300
1/400
1/500
1/600
1/800
171,000
171,200
171,500
1/2,000
1/2,500
1/3,000
1/4,000
1/5,000
1/6,000
1/8,000
1/10,000
>
To
yo
Owners-AD-4323-v.3.d
Min.
2 IV
1/400
1/500
1/600
1/750
171,000
171,250
171,500
1/2,000
1/2,500
1/3,000
1/4,000
1/5,000
1/6,000
1/7,500
1/10,000
RESOLUTION
5 Min.
1/300
1/400
1/500
1/600
1/800
171,000
171,200
171,600
172,000
172,400
1/3,000
174,000
1/5,000
1/6,000
1/8,000
1/10,000
Page 21
1 0 Min.
1/300
1/400
1/500
1/600
1/800
1/1,000
1/1,200
1/1,500
1/2,000
1/2,500
1/3,000
1/4,000
1/5,000
1/6,000
1/8,000
1/10,000
20 Min.
1/300
1/400
1/500
1/600
1/750
171,000
171,250
171,500
172,000
1/2,500
1/3,000
1/4,000
1/5,000
1/6,000
1/7,500
1/10,000
50 Min.
1/300
1/400
1/500
1/600
1/800
1/1,000
1/1,200
1/1,600
1/2,000
1/2,400
1/3,000
1/4,000
1/5,000
1/6,000
1/8,000
1/10,000
= AD-4323 Weighing Indicator |
Calibration
Page 22 | Owners-AD-4323-v.3.d
ITEMS IN THE
FULL CALIBRATION PROCEDURE
The section FULL CALIBRATION PROCEDURE on the following pages contains the
procedure to input the following information needed to make the AD-4323
function as a Weighing Indicator. Below are some explanations for the major
items and shortcuts for individual changes.
Minimum Division
The Display Resolution depends on, and is limited by, the Minimum Division.
Display Resolution is Minimum Division divided by the Maximum Capacity (see
the DISPLAY RESOLUTION TABLE, page 19). The Minimum Division's are the
blocks in which the display will be able to show change in weight. If you set the
AD-4323 for 1 internal minimum division, then the display will be able to move
by one, ex: 101,102,103... If you set it for 2 minimum divisions, then the smallest
the display will be able to move is by two's, ex: 100,102,104.... And so forth.
You are limited to 1,2,5,10,20, or 50 internal divisions - this is in turn limited by
the Max. Capacity of your weighing device. The internal divisions are different in
the various weighing modes.
Zero Calibration
The ZERO Calibration is simply: recalibrating the AD-4323, to the weighing
device, when it has no weight acting on it ("0"). This gives the AD-4323 a base
reference point, "zero", to compare with when weight is added. It is possible that
temperature changes, wear-and-tear of the Weighing Device, and other
influences, may cause the "zero" point to drift - needing recalibration. You may
want to do ZERO Calibration on a regular schedule, as weighing conditions
demand.
Maximum Capacity
JOE A LI SI ad FI Met A ET
dome id ii EE ЗЙАОЛОЛОЛОИИя
The Maximum Capacity is the full weight that you want your weighing device to
handle. This could be the rated capacity of the Load Cells, or some other limit
you wish to set. Maximum Capacity also has a relationship to the Display
Resolution. Resolution is Minimum Division divided by the Maximum Capacity.
Please see the DISPLAY RESOLUTION Table in the INSTALLATION section, page 19.
Owners-AD-4323-v.3.d Page 23
Span Calibration
SPAN Calibration is simply: recalibrating the AD-4323, to the weighing device, at
full capacity. With ZERO Calibration, you set an empty Weighing Device as your
"zero" point. With SPAN Calibration, you set the end point of your Weighing
Device's ability to weigh - its Max. Capacity. This gives the AD-4323 two
extreme points where it knows the correct weight. Now it will accurately
calculate what the weights are in between. While the most accurate SPAN
Calibration is with Max. Capacity as your SPAN weight - this may not always be
possible. In those cases, use the weight closest to Max. Capacity as practical.
The closer to Max. Capacity the SPAN weight is - the more highly accurate the
reading is (especially at the higher end). о
Ш /f you want to perform:
О ZERO Calibration ONLY: |
If you only want to perform the simple calibration procedure - use the ZERO
CAL 8 FINE SPAN ADJUSTMENT procedure (page 27), after Step 4-B, slide
OFF the CAL switch.
D To Change Minimum Division ONLY: |
If you only want to change the Minimum Division - use THE FULL CALIBRATION
PROCEDURE (page 24), after Step 4-B, press the STANDBY/OPERATE key, and
slide OFFÚ the CAL switch.
Jd To Change Maximum Capacity ONLY: |
If you only want to change the Maximum Capacity - use THE FULL CALIBRATION
PROCEDURE (page 24), after Step 6-B, press the STANDBY/OPERATE key, and
slide OFF! the CAL switch. В
Jd To Perform SPAN Calibration ONLY:
If you only want to do SPAN Calibration - use the ZERO CAL 8 FINE SPAN
ADJUSTMENT procedure, page 27.
Q Any Mix of Changes:
If you only want to make some other mix of changes or calibrations, please
just go through the procedure from the beginning and make your choices as
you move through the procedure.
Page 24 Owners-AD-4323-v.3.d
CALIBRATION FLOWCHART
C=)
Fine
ZERO,SPAN
Adjust?
!
Press ZERO key
switch
Set Minimum Division
End
Setting?
Y Press ZERO key
| switch
— Set capacity | — Zero adjust
Fine SPAN
Adjust?
End
Setting?
Pre-zero adjust | Fine SPAN adjust |
Span adjust |
Y
Zero adjust |
—+ ‘
(=)
Owners-AD-4323-v.3.d Page 25
FULL CALIBRATION PROCEDURE
sk Calibration and Changing Division or Capacity *
« Mainly meant for initial installation, or ideal situations *
Please Note
x | Q Your AD-4323 should be calibrated when:
| O first installed, or if any part of the weighing system is changed.
o if any drift is noted.
Attention
В The AD-4323 must be warmed up (plugged in) for at least 30
minutes before starting calibration.
Q During calibration, the weighing system must be kept stable for
accurate adjustment.
Note: ~The display examples shown in this procedure are initial ones.
| After this procedure has been done once, the example numbers
may be different than the actual numbers displayed.
Step 1. | sranngy => Press the STANDBY/OPERATE key to turn the
OPERATE |-2727,-21| display ON, and have nothing on the
E 1 weighing surface.
Step 2. _ Front Open the panel cover on the front of the
С Panel Cover ~~ AD-4323 unit by unscrewing the knob - to
== crew expose the dip-switches.
Step 3. о Slide the middle dip-switch (calibration) ONT.
TE
DISPLAY Do) "CAL " will be appear for a couple of
LL IIL seconds, followed by:
= ' Г "d 01" with the last digit flashing. This is
Г ! the internal Minimum Division that is
To + 1_~ | presently entered into the AD-4323. You
have the following choices.
Step 4. | A) If you do not want to change the Min. Division., go to Step 5.
B) If you wish to change the Minimum NET —
Division, use the NET/GROSS key to “cross” 1120 =,
move through the available divisions. — =
Minimum
Division
Q You are limited to one of the following internal Minimum Divisions:
1,2,5,10, 20, or 50 - see DISPLAY RESOLUTION TABLE, page 19.
Page 26 Owners-AD-4323-v.3.d
Step 5. | [stanoey ===) A) lf there is no change, or B) When you have
OPERATE — ve changed to the new setting, press the
STANDBY/OPERATE key.
Note: If you only wanted to change the Min. Div, go to Step 14 and finish.
"CAP " will be appear for a couple of
LIL
LJ seconds, followed by:
DISPLAY Г |)
ee нае
DA
“ты
“ай
> "C010000" with the last digit flashing. This
Maximum | > Ea Г } is the Maximum Capacity weight (10,000 Ib,
Capacity kg, or t) that is presently entered into the
AD-4323
Step 6. A) If you do not want to change the Max. Capacity., go to Step 7.
B) If you wish to change the Maximum Capacity, you may do so
now by using the keys as described above in the CALIBRATION
KEY ENTERING FUNCTIONS table below. Enter in the Maximum
Capacity of your weighing device.
wv
=== се © * The STANDBY/OPERATE
CALIBRATION С) STANDBY key enters settings into
Key Entering сое E ree
Functions | ULT MoveE nter memory and moves to the
Changing the Display digits Ov da next function.
dos a * The ZERO Seo E
key moves the flashing cursor left by * TRETARE
E one place. Key moves
НУ | ни it right.
Do ел (LU | 106 |- PL Ea >| ETT o gn
ab wl Zl
т * The NET/GROSS — =
key increases the flashing cursor by * The PRINT
one digit. key decreases
Г | “7 POr NI ea
je:| (ОБР 7 |> 1561 HS GO | by one digit.
RS
L—][;——];zze;o о АеННННЧЕНй
Step 7. | [sranoey | A) If there is no change, or B) When you have
OPERATE === m changed to the new setting, press the
STANDBY/OPERATE key.
Note: If you have changed what you wanted, go to Step 14 and finish.
CI ICI) 71| "В "Wi | |
DISPLAY ! POL Lf PCAL 0" will be displayed
STANDBY
Step 8. | (OPERATE E Press the STANDBY/OPERATE key.
ae "will be appear for a couple of
DISPLAY
seconds, followed by:
Owners-AD-4323-v.3.d ‚ Раде 2/7
"CAL SPn" (SPAN Calibration) will be
appear for a couple of seconds, followed
by:
"XXXX" here denotes the Maximum
Capacity entered in memory.
If you are not using Max. Capacity as your SPAN weight, or the
exact weight of the Cal. Mass is known - please enter in the weight
of the calibration mass by using the keys as described in the AD-
4323 KEY ENTERING FUNCTIONS table above.
Place the calibration mass on the weighing device.
r El Er
Span LIIL AJ} "
Calibration| | *
\ Ги |
| _ V Y Y Y
Li ZN ZA AA
Step 9.
Step 10.
step 11 | Smet [oem
| Оу
DISPLAY
у _
Zero mu. E
Calibration Г 51 1}
Step 12.
Step 13. 53 Ве
DISPLAY
DISPLAY Oo |
LL IIL AN |
Step 14. }
ОО
Step 15.
END
Press the STANDBY/OPERATE key.
"еее, “ will be appear for a couple of
seconds, followed by:
"CAL 0" will be displayed.
Remove the calibration mass from the weighing device.
Press the STANDBY/OPERATE key.
nee. "will be appear for a couple of
seconds, followed by:
"CAL End" will be displayed.
Slide the middle dip-switch (calibration) OFF.
Replace the panel cover on the front of the AD-4323 unit.
End of SPAN CALIBRATION procedure.
Page 28
Owners-AD-4323-v.3.d
ZERO CAL & FINE SPAN ADJUSTMENT
Step 1.
Step 2.
Step 3.
Step 4.
Step 5.
[1999989] $
| First clear the TARE and ZERO. “Press
BEE || and hold the TARE key, then press the
Cao
XT
CAL | SH 686
СГ Г
S TANDBY/OPERATE key.
SN TARE and ZERO will be cleared while the
$ display comes ON
d_ XX} 6||REE
DOCE EG
Slide the middle dip-switch (calibration) ONT.
"CAL" will be displayed for a couple of seconds, then "d XX" will
be displayed. "xx" signifying minimum division in memory.
Г O
HBG || ‘Press the ZERO key.
rr Cl
LHL Ll
HEH
OO
a]
| [=]
N
A) If you don't want to adjust
Zero, then press the ZERO
key and go to Step. 5.
G Pa Ho ol S "a"
ICE] El
"SPn Add" will be
displayed for a couple of
seconds.
Owners-AD-4323-v.3.d
Page 29
"CAL 0" will be displayed.
To o|| BRE
|| = |
]
-B) If you want to adjust ZERO,
then remove all weight and
press the STANDBY/ OPERATE
key.
Maa " will be displayed for 10
sec. ZERO CAL has occurred.
OR
E XXXX | 1 BEE
CAC I=] [=]
"A X XXX" will be
displayed if there is a mass,
or the weight of the system
itself, acting on the load
cells. It is not necessarily
accurate.
then
Step 6.
Step 7.
Step 8.
Load the standard weight you are using
st XXXX|8
HAB || on the weighing device. The display will
show its weight.
|
|= |
(|
A
J Will be shown when the
> NET/GROSS key is pushed
Lr Will be shown when the
“7 PRINT key is pushed
= "To adjust, push either the NET/GROSS
key to increase the display by one, or the
PRINT key to decrease the display by one.
About 3 seconds per 1 count.
=>
=
о.
OO
When you are finished the fine
adjustment, Press the STANDBY/OPERATE
key.
"CAL End" will be displayed.
XX XX
oe
nig] | “Slide the middle dip-switeh (calibration)
| || OFFL.
|
NN "ALÍ
[=] | The display will return to normal.
Page 30 Owners-AD-4323-v.3.d
Calibration Errors
DISPLAY rT _ J | "CErr 1" will be displayed if the resolution
L LI } | | exceeds 10,000 Divisions.
DISPLAY | | ог “7 $ EXC+
L Lila L
"CErr 2" will be displayed if Load Cell SIG+
output is too large at ZERO Calibration.
In this case add an additional resistor EXC-
between EXC+ and SIG-. SIG-
DISPLAY Fr or =) - EXC+
L En 21 see note
, , , SIG+
| "CErr 3" is displayed if Load Cell output
| is too small (neg. offset) at ZERO
Calibration. EXC-
In this case add an additional resistor SIG-
between EXC+ and SIG+.
*Note: The resistor should have as a high resistance as possible (50kQ to
500kQ) and should be of the highest quality, having the lowest
temperature coefficient.
DISPLAY | | For DJ | "CErr 4" will be displayed a Calibration
1 Dm 7 | Mass over Max. Capacity has been
TT mistakenly entered.
DISPLAY |[ = = = | "CEm5" will be displayed if the Calibration
L Cr —1 | Mass has mistakenly entered as "0", or if it's
smaller than the Min. Division.
DISPLAY ~ Eo o "CErre" will be displayed if the Load Cell
LCI } LI | output is too low.
DISPLAY - = | "CErr 7" will be displayed if the Load Cell
L Er [ | signal pins are reversed, or incorrectly
wired.
DISPLAY ” oc K | "CErr 8" will be displayed if the Load Cell
LL! } LI | output is too high.
DISPLAY - DI "CErr 10" will be displayed if the Dip
L mn ILL | Switch 1 is slid ON while in Calibration
_ Mode (CAL. Dip Switch ON).
DISPLAY | | - y "CErr 11" will be displayed if the ZERO or
L rm 3 (| TARE was not cleared during Fine SPAN
| Adjustment.
Owners-AD-4323-v.3.d Page 31
AD-4323 Weighing Indicator
F-Functions
Page 32 Owners-AD-4323-v.3.d
ABOUT CHANGING THE "F" - FUNCTIONS
There are a number of AD-4323 functions that are selectable by the user - these
functions control many of the important capabilities of the AD-4323. Please take
a moment to look through the different F-Functions on the following pages. You
are able to change any listed F-Function that you wish. This is accomplish by
moving through two levels:
DISPLAY
DISPLAY
1)
-
Г Г |
J |
Ll
moe a,
7 EN
+
* F-Function Level +
st,
—
L
a
wr 7 |
* F-Func. Settings Level *
2)
ba
7
The first level displays an "F" at the far
left - the number on the right shows you
which F-Function you are presently in.
In this example you are in function
"F 01", Decimal Point Adjustment. Use
the STANDBY/OPERATE key to move to
the next level, the settings for "F 01".
The second level has just a flashing
number at the far right, telling you what
the. setting is for the "F 01". In this
example the setting is "3", meaning the
decimal point is set three places in. The
S TANDBY/OPERATE key is now used to
move to the next F-Function.
In the CHANGING THE F-FUNCTIONS procedure, the keys are used in the following
manner to change the display. Please take a moment to study the key entering
functions:
=== cogo & * The STANDBY/OPERATE
F-FUNCTION STANDBY key moves to the setting
Key Entering PSS OPERATE level or, enters and moves
Functions | | MovevEnter to th ) t F-F ti
Changing the Display digits ‹ В © the nex unction.
Soma = * TheZERO ВЕ обес =
key moves the flashing cursor left by * The TARE
zero | one place. TARE | key moves
DA AL ES it right.
@ el 52 |>LE, 25 | а
coss ©
* The NET/GROSS
Key increases the flashing cursor by
one digit.
* The PRINT |
N key decreases
Se A by one digit.
Y ATA
Owners-AD-4323-v.3.d
Page 33
CHANGING THE "F" - FUNCTIONS
PROCEDURE
Step 1. | [== _ Front Open the panel cover on the front of the
Panel Cover Ñ AD-4323 unit by unscrewing the knob - to
(||| =) Screw , ‚
шлет expose the dip-switches.
Step 2. ola Slide the right dip-switch (F-Function) ONT.
DISPLAY Г MIT | "Е 00" will be displayed with the last digit
po LiL [ | flashing.
Step 3. ES cosp = || Press the NET/GROSS key to move to the first
= F-Function.
Nos
DISPLAY - NN / "F 01" will be displayed.
Y - EIN
Step 4. | f sranney IT ——7 Press the STANDBY/OPERATE key to move
OPERATE |=) into the next level, that of the settings for the
1 F-Function.
DISPLAY — 3" (or other number) will be displayed
7} | - this is the setting for the F-Function "F 01"
> 1“ J presently in memory. _
Step 5. You are now in "F 01", Decimal Point Adjustment. If you wanted to
change the placement of the decimal point in the display, you
would choose a new setting and enter it now.
Decimal Point Adjustment
©? | No decimal point Чо
7 I } ; 1 О’ / = > Y 5
Pe 10° 12245
= 103 E 5
5 10° KEYS
So, if you wanted to change the setting in "F 01", then you would
use the NET/GROSS key to increase the display by one, or the PRINT
key to decrease the display by one.
Step 6. > |f there is no change, or when you have
| changed to a new setting, press the
— STANDBY/OPERATE key to move forward to
the next F-Function level.
STANDBY
OPERATE | }————
Page 34
Owners-AD-4323-v.3.d
DISPLAY Е НН —l | "F 03" (USA version), Display Update
В _/ | Rate, will be displayed.
Step 7. You are now able to move through and change the F-Functions
and their settings as demonstrated above. If there is no change in
a function, or you simply wish to move directly to a new one: 1)
Move incrementally by pressing the STANDBY/OPERATE key twice,
or 2) Use the keys to select it at the F-Function level.
Step 8. I | When you are finished, slide the right dip-switch (F-
OO Function) OFF.
DispLAY|| E = _ _J | "F End" will be appear for a couple of
no EL TIL! | seconds.
Step 9. Replace the panel cover on the front of the AD-4323 unit.
Step 10. Return to normal weighing.
END End of CHANGING THE F-FUNCTIONS procedure.
Errors - Changing the F-Functions
DISPLAY E __ y | "F Err 1" will be displayed if there is no
/ LI I | such F-function number as the one you set.
DISPLAY Г
= = | "F Err 2" will be displayed if there is no
such function setting as the one you set.
Owners-AD-4323-v.3.d Page 35
A NOTE CONCERNING
BATCH vs CHECK WEIGHING
If you are using the AD-4323 indicator for static weighing, or not
using the SETPOINT interface connector on the back panel, you
may disregard this page and F-Functions: F-10 through F-18,
F-61 through F-64, and F-70
Besides static weighing, the AD-4323 is pre-programed for two kinds of
weighing modes: batch weighing mode (F-70 = "0"), and check weighing mode
(F-70 = "1"). Because of these differences, there are various settings for either
system that need to be entered.
a note is added when an item is using | BATCH WEIGHING MODE
Please note that throughout the manual, Ms when F-70 is set al Ы
batch, or.check weighing. Example —
3 F-70 set at "0" is for Batch Weighing.
* Setpoints are entered either through F-Functions F-11, F-12; or
through a Setpoint Unit (ex: OP-05); or computer interface.
- When the AD-4323 is in batching mode, F-61, F-62, F-63, and
F-64 will not appear as you move through the F-Functions, or
operate. They are for check weighing mode.
3 F-70 set at "1" is for Check Weighing.
* Setpoints are entered either through F-Functions F-11, F-61, F-
62, F-63, and F-64; or through an external digital switch unit; or
computer interface.
* When the AD-4323 is in check mode, F-10, F-12, F-13, F-14,
and F-18 will not appear as you move through the F- Functions,
or operate. They are for batch weighing mode. 8
Page 36 Owners-AD-4323-v.3.d
F-FUNCTIONS LISTED
| Q General |
01 Decimal Point Adjustment
“TI
Displays to 1,2,3 or 4 decimal places.
02 Weighing Unit Selection
"kg"e> "1" (Not USA version)
03 Display Update Rate
17 times/sec, 4 times/sec.
04 Digital Filter
Week «> Strong.
05 Set ZERO Range
2% or 10% of Maximum Capacity.
06 Motion Detection Condition
0.5 sec, 1 count > 1 sec, 9 counts
07 Auto. ZERO Track. Comp.
1 sec, .5 division > 2 sec, 4.5 division
08 Holding Mode
Normal Hold, Peak Hold
A тт
09 Comparison Result Output
Normal Output, Locked w/ Display
Q For Batch Weighing
F 10 Pulse Width of FINISH signal 0.1 sec — 2.0 sec
F 11 ZERO Band Selectable (enter weight)
F 12 Optional Preliminary Weight Selectable (enter weight)
F 13 Timer - Comparator Inhibiter 0.1 to 2.0 seconds or Disable.
F 14 Automatic Free Fall Comp. Set Weight or Disable.
F 15*| Measurement Mode Normal, Loss-in Batching. *When F-70="0"
F 15*| Comparison Mode Modes 1—5. *When F-70="1".
F 16 TARE & ZERO keys Availability] Stable or Always Working (Not USA version).
F 17 TARE key Availability Avail., N. À. at Minus Gross (Not USA version)
F 18 Timer - Finish Signal Set between 0.1 sec. and 9.9 sec.
F 19 N. À. N. A.
F 20 Panel Key Disable Selection Enable/Disable Selection (Not USA version)
| D For Standard Current Loop Ш
F 21 Baud Rate
600, 2400 Baud.
F 22 Output Data
Display, GROSS, NET, Tare or
Gross+Net+Tare
F 23 Output Mode
Stream, Auto Print, PRINT key.
F 24 | Output Availability
Always Available, or Stable Only
F 25730 | N. A.
| D For BCD Option OP-01
F 31 Output Data
Display, GROSS, NET, or Tare Data. .
F 32 Output Mode
Stream, Auto Print, PRINT Key.
F 33 Output Logic
Positive Logic, Negative Logic.
Owners-AD-4323-v.3.d Page 37
| Q For Serial Interface Option OP-04 |
F 41 Baud Rate 600, 1200, 2400, 4800, 9600.
F 42 Output Data Display, GROSS, NET, Tare or
Gross+Net+Tare Data (also update rates).
F 43 Output Mode | Stream, Auto Print, Print Key, Command.
F 44 Output Availability Always Available, Only when Stable
Р 45— 5 0 М. А.
| Q For Analog Option OP-07 |
F 51 | Analog Output Data Display, Gross, or Net Data.
F 52 Output current at display ZERO 0.0mA through 99.9mA.
F 63 Output current at Full Scale 0.0mA through 99.9mA.
F 54— 60 N. A.
Q For Check Weighing
F 61 High High Limit Weight Input the Weight.
F 62 High Limit Weight Input the Weight.
F 63 | Low Limit Weight Input the Weight.
F 64 Low Low Limit Weight Input the Weight.
F 65-769 №. А.
Q Weighing Mode
F 70 Weighing Mode Batch Weighing, Check Weighing
Page 38 Owners-AD-4323-v.3.d
THE F-FUNCTIONS AND THEIR SETTINGS
O Indicates Initial Factory Setting
Decimal Point Adjustment
el: No decimal point 2777595
F я! | 10° {F495
Li 1 -' 10° (OS
= 10° 545
y 104 A
International Version ONLY
Weighing Unit Change NOT USA VERSION
Fr nu ® kg kilogram
/ LIL = t tonne
Please note that the decimal point will have to be
moved if you switch between "kg" and "t". Example:
1001kg will change to 1001t - however, it is 1.001t !
The decimal point must be changed.
ha of Kal
Display Update Rate
E m 3 e y 17 times per second
Li = 4 times per second
Digital Filter
a Weakes! Good More
= | Weaker Environment Sensative
> Weaker A A
el “4 Normal v v
F 0 Y 5 | Strong Bad Less
- Environment Sensative
о Stronger
e This function is weighing environment dependent.
e When fast weighing is needed, then the filter should be weaker
for a faster display response.
Owners-AD-4323-v.3.d
ey La ma
Page 39
Set ZERO Range
©
a
+2% of weighing platform Full Capacity
+10% of weighing platform Full Capacity
The ZERO key works only if the display is withing the set +2%
or £10% limit of the weighing platform Full Capacity.
2% or 10% ;
Full Capacit
M A Range e y
+
Jia
У рт от
m,|-
*_
Ur,
Um
Li _ —
ZERO key works —-+$ € ZERO key will not work
Motion Detection Condition | |
This modifies the "stable" condition by the counts per time of
Ihru | non-movement before the AD-4323 recognizes the stable
E MC ‚©; | condition. The fewer counts per longer time are more likely
/ LIL] to recognize the stable condition and vice versa.
A L t 1 -
y ed
| always| count 6 o o o ¿ seconds + /, / + count
stable | @ Factory set at "12" note: ¿7 =0.5 seconds / =1 second
Automatic ZERO Tracking Compensation (rate of drift from ZERO)
; seconds The ZERO Tracking Comp. function will
Ke automatically bring the display back to
E
Y
7 divisions T "zero" when there are small deviations.
thru ни, 7 = 1 second | Divisions (D)
E fi =] / cr AR r / = 2 seconds | 4.5 D, 1 sec. Setting at " 09”
LI | 4.5D+ y -
; = 0.5 Div.'s - -
зе’ = 1.0 Div's | 250 - -
e y 5115 -15Div's > - |
Disable E А - 0.5D; - — 0.5 D, 2 sec.
; 0 PS 7 Setting at "11"
= | 1 sec 2 sec
“ =4.5Div.'s Time
For example: Puddles of rain form on the weighing platform. Within the limits you set, the AD-4323 will
ignore the rain and automatically bring the display to "zero" for easier weighing. So, if your max. capacity
= 1.000 Ib, min. div. = 1D (0.001 Ib) and you set “F 07" function at "02" - every second the AD-4323
will check if more rain than 0.001 Ib (1 D) has collected. If it's less, then the display will automatically
“zero”. If it's more, it will not - you will have to press the ZERO key, and the cycle will start again at the
new “zero”. Slope of puddles forming: |
02" Setting » less than 0.001 Ib per second - display will automatically "zero"
1 sec -1 Div. Slope of puddles forming:
ir more than 0.001 Ib per second - display will not
automatically "zero"
+
e
e
Page 40 Owners-AD-4323-v.3.d
Holding Mode
Normal Hold
Actual Weight
+ VA Display Weight
Weight AN cree for sr0003 od
Display Hold ON| x 7
Command Input OFF 7 7
Display is LOCKED when Command Input is ON
o
E mel
/ LILI
Owners-AD-4323-v.3.d
Peak Hold Actual Weight
Display Weight
; Y play g
Weight orem
я Y Y
Display Hold ON| pre 7
Command Input OFF Zo
Display is LOCKED when Command Input is ON,
but will be replaced when new peak data is entered.
[TL
Note |
The ZERO, TARE and TARE RESET commands will not work
while the display has been locked.
When the display is locked, the Y indicator between the MD
and GROSS will come ÓN.
AD-4323 WEIGHING INDICATOR
b ©
y |e
TARE
ENTERED
há Y Y wv
MD — cross NET
Page 41
Comparison Result Output Mode
Comparator J'IIITIT TITI IT 0707 7
points lL 00 | TT re
Actual Weight
|
DON
! Display Weight
| |
|
Display Hold
Command input
e
N
N
=
N
Outputs
Comparator PAT ZZ
ВОН
E 75
E
Comparator
points |
! |
| |
| |
0 | !
77
Display Hold 7 “ :
Command Input re
= ПОЙ 7
] |
| 1 ZZ
Comparator ; | 7%
7
Comparison result is locked when the display is locked
“EC ADAN AD A in qu
Note |
The ZERO, TARE and TARE RESET commands will not work
while the display has been locked.
When the display is locked, the Y indicator between the MD
and GROSS will come ÓN.
неее
AD-4323 WEIGHING INDICATOR
"EEE lini
Page 42 Owners-AD-4323-v.3.d
D) For Batching
Pulse Width of FINISH Signal
Г I)
/ ГЫ
©
?
seconds
thru
77
seconds
Ld
С
Lr
7
Lie
This function works when |
F-70 is set at "0".
Final
Preliminary y"
Actual Optional Prelim. . (Batch)
Weight | Finish
Star | ZERO Band ON
0
Optional (Full-Flow)
Prelim.
Prelim. (Medium-Flow)
Final (Dribble-Flow)
4 Finish
Finish *—Time"F 18" nel
“ Time period from
Start | FINISH (ON) to FINISH (OFF)
A CDE pr A
This setting sets the time period from when the FINISH signal is ON to when it
goes OFF. note: Works only with batching built-in program mode.
* "0.0" = FINISH signal sent ON, and stays ON until the next START signal.
ZERO Band
E | / Input the weight where the AD-4323 will read "zero" (empty).
Optional Preliminary Weight
ric
This function works when
F-70 is set at "0".
Input the weight of the Optional Preliminary Weight.
Owners-AD-4323-v.3.d
Page 43
. Là This function works when
Timer - Comparator inhibiter F-70 is set at "0". |
The Comparator Input Inhibiter can
~ ‚ | be set between 0.1 seconds and 2.0
Ty | Seconds. If there are strong
Г Г > | Vibrations, the peaks could be
/ II | | mistaken for the next setpoint.
Optional Prelim. | |
enr note: E = 0.1 seconds Prelim. | —
Disable | Lf = 2.0 seconds Start [7
This setting depends on vibration. If there is little, or no vibration, then the
Function is not needed ("0.0"). The stronger the vibration, the longer the time
needed. note: Works only with batching built-in-program modes.
ds liado
Automatic Free Fall Compensation Range F-70 is set at "0".
This function works when |
Enter in Free Fall compensation range weight
(Disabled = £7) If 1kg is entered, the range is then 1kg
lower, or higher, of the Final setpoint. A 2kg total range.
|
ba
Free Fall Fipal = Enable
Preliminary — Range
Page 44 Owners-AD-4323-v.3.d
Note |
F-70 is set - at "0" or "1":
F-15 has two different types of settings, depending on how
When F-70 is set at "0",
Measurement Mode
Г
these settings apply:
—~
Normal Batching
J
Loss-in-Weight Batching
Customer e
Programmed
y” LIT Control Mode
Г | ZI
Built-in Automatic
Ly J Г.
~ Normal Batching
Program Mode
НЫ
=
Loss-in-Weight Batching
When F-70 is set at "1",
Comparison Mode
Г
these settings apply:
N Comparison Mode 1
= Comparison Mode 2
LI
a]
1
—— что
"ay
LT
o
Comparison Mode 3
Comparison Mode 4
NE
Comparison Mode 5
TARE and ZERO keys Availability (Not available on USA version)
r ¡y 9! | ZERO 8 TARE keys only work when display is STABLE
/ IL] = | ZERO & TARE keys always work (used in Batching Mode).
TARE key Availability (Not available on USA version)
m 777 9):
' If the GROSS is negative (-), TARE does not work.
/ 1 | =
TARE always works (used in Batching Mode).
Timer - Finish Signal
This function works when
F-70 is set а! "О".
~
thru
ec
+f | display is stable.
a note:
O!
Output
when
stable
— I
a du
a
; Ka ; = 0.1 seconds
-" = 9.9 seconds
Promina er T '
(Batch) Finish
This Finish Signal Timer can be set between 0.1 seconds
and 9.9 seconds. It adjusts the time from the Final signal to
the (batch) Finish signal when there are strong vibrations.
Setting "0.0" sends the output Finish signal only when the
Final Finish (Batch)
Free Fall
[|
note: Works only with the batching built-in program mode.
Owners-AD-4323-v.3.d Page 45
L) For the International Version
International Version ONLY
Panel Key Disable Selection - Mode 1 NOT USA VERSION
This function allows you to o ( )
select front panel keys not to o MODE
be disabled when you are in dE 12 © an
Mode 1 - Disable Front Panel Keys. rm CA O
-_ 1111
Q — CC 111 8
si s2 s3 s4 s5 s6
— - Ls! ]|s? )|s3]Is4]is5ils6]
r Г Ti LI re Enabled
"1" means the key is disabled, 3
"0" means the key is enabled. Ci |
Factory setting IS "1 1 1 11 1" Key Disabled
ALL KEYS DISABLED.
Use the keys in the manor shown to
move through the settings and press | ео E
s6 Enter when settings are correct. (a —Enler
DA
D For Standard Current Loop
Baud Rate (serial out for dispiay/printer)
L le | 2400BPS
Rael Ll TE ET LEE
Output Data
y Same as Display
Gross Data
Net Data
Tare Data
Gross Data, Net Data, Tare Data
Е ее
Li > 1 1
JT = 1 ' |
- -
Output Mode
Ф
Stream
Auto Print Mode
Print only when PRINT key is pressed
Г = =
Po Cid
у = =
; Li | Г L f "=
Раде 46 Owners-AD-4323-v.3.d
Output Availability
ro ®
oC
Always Available
Output when Stable Only
D For BCD Option OP-01
Output Data
same as Display
e |
Г = | = Gross Data
I jf = Net Data
ol Tare Data
Output Mode
®| / | Stream
Г a
he
|
—
_]
Auto Print Mode
Print only when PRINT key is pressed
Output Logic
Cc 0
Positive Logic
) _
E.
co
Negative Logic
J For Serial Interface Option OP-04
Baud Rate
i 600 BPS
5 1200 BPS
E 11 —
/ / | O - 2400 BPS
Le 4800 BPS
5 9600 BPS
Owners-AD-4323-v.3.d
Page 47
Output Data
®| / | Same as Display -Update rate=F 03
Gross Data -Update rate = F 03
Net Data -Update rate = F 03
—.
- | pit
Е Н — 7 | Tare Data -Update rate = F 03
5 | Gross, Net, & Tare Data -Update rate = F 03
& | Gross Data -Update rate = 70/sec
/ | Net Data -Update rate = 70/sec
Output Mode
© / | Stream
-* | Auto Print Mode
Print only when PRINT key is pressed
+ | Command Mode #1
= Command Mode #2
—
=
co
A
=
Output Availability
Co ni ©, Always Available
/ [1 = | Output when Stable Only
fa bam i
U} For Analog Option OP-07
Analog Output Data
©; Same as Display
ОГ | > |
} + | ,- Gross Data
= Net Data
Output Current at Display Zero
mi ns
E E =} yet 0.0mA through 99.9mA
Sid wy Factory set at "4.0" mA
a PA Lad a BR da aaa
Output Current at Full Scale
E 55 м 0.0mA through 99.9mA
Factory set at "20.0" mA
Page 48 Owners-AD-4323-v.3.d
For Check Weighing
High High Limit Weight
LC ! | Input the weight of the High High Limit Weight.
This function works when
F-70 is set at "1".
High Limit Weight
a
(
a
1
J L
- | Input the weight of the High Limit Weight.
This function works when
F-70 is set at "1".
Low Limit Weight
Г —
/
x
Deus
“чт
М
Input the weight of the Low Limit Weight.
This function works when
F-70 is set at "1".
| J SE. TE
7 ча,
Low Low Limit Weight
E AH | Input the weight of the Low Low Limit Weight.
This function works when
F-70 is set at "1".
Q Weighing Mode
Weighing Mode
Batch Weighing Mode
F 10°
Check Weighing Mode
Owners-AD-4323-v.3.d
Page 49
AD-4323 Weighing Indicator |
I/O Interfacing
Page 50 Owners-AD-4323-v.3.d
CONTROL 1/0 EXTERNAL INTERFACE |
BATCH MODE BATCH WEIGHNG MODE |
BATCH WEIGHING MODE
B Pin Assignment: |
Pin Signal Name
A-1 | ZERO Input
AD-4323 returns to the center of ZERO when the weighing
device is empty.
AD-4323 switches to NET mode, ZERO's the display and stores
the TARE weight in memory.
A-2 TARE Input
A-3 TARE Reset TARE value is cleared "0".
Built-in Program Mode ~~ | Batching will be started when this input is shorted to
Ad Start Batch Input common (A8)
Customer Program Mode | When input is shorted to common (A8), AD-4323 will stop
Setpoint 'data' read inhibit input | to get the data from setpoints, keeping the previous data.
Built-in Program Mode If this input is shorted to common (A8), the batch is
A5 Abort the Batch aborted - and (batch) FINISH signal is sent.
oo Pro e Fall com When input is shorted to common (A8), AD-4323 will
Р. estimate the Free Fall value for the next batch.
Command
When the data outputs is set to Print Key Mode,
1) this Pin will be PRINT command input.
» |f this command is accepted, data output will be sent one
A-6 Display HOLD/PRINT time.
command Input. “When all data output is not set at Manual Print mode, this
2) pin will be display HOLD input.
- When this pin is shorted to common (A8), all data output
and display will be frozen.
A-7 Error Output 1) If Gross weight is out of the 2%/10% ZERO range when
ZERO input is accepted.
2) Overload, or Underload.
4 A-8 Common
B-1 | ZERO Band Output B-5 Hi Limit Ouptut
B-2 | Optional Prelim. Ouptut B-6 Lo Limit Ouptut
B-3 | Prelim. Ouptut B-7 Batch Finish Output
B-4 | Final Ouptut B-8 | Motion Detection Ouptut “anit maion
INPUT +V OUTPUT +V — +V
5H o CL | Аа Я
\ Абои! БтА “ау $
Wy 9 or N \. ie, Or
f ” 5 >
[ 9 / + | Common Y
1 Common
AD-4323 AD-4323
‘With the above OUTPUT circuit , please use optical isolator or relay.
*The excitation (or driving) capacity of these relays are 24V 50mA DC maximum.
*The width of these inputs are at least 200msec.
Owners-AD-4323-v.3.d Page 51
SETPOINT EXTERNAL INTERFACE |
BATCH MODE Used when Hno NOD: |
BATCH WEIGHING MODE
E Push Button Thumbwheels
The following groups of thumbwheel switches can be directly interfaced:
(a) Final Weight (5 digits) (b) Free Fall (3 digits)
(c) Prelim. Weight (4 digits) (d) Hi Limit (2 digits)
(e) Lo Limit (2 digits)
OU If Min. Division is =z 10: then (a), (b), (c), (d) and (e) will be multiplied by ten
before the Comparator compares the data.
O The Least Significant Digit (LSD) of a thumbwheel switch group
corresponds to the LSD of the weight display.
H Setpoint Condition |
Output closes under the following conditions, depending on the customer
programed mode:
- Output D Condition
ZERO Band Output "Gross Weight"<"ZERO Band".
Normal Mode Optional Prelim Output "Net weight" >"Final" — "Optional Prelim".
Loss-in Mode Optional Prelim Output "Gross weight" >"Optional Prelim".
Preliminary Output "Net Weight">"Final" — "Preliminary".
Final Output "Net Weight">"Final" — "Free Fail".
Hi Limit Output "Net Weight">"Final" + "Hi Limit".
Lo Limit Output "Net Weight"<"Final" — "Lo Limit".
E Pin Numbers
1211 1098 7 6 5 4 3 2 1
O OCOCOOCOCOO A
00090000©00000 B
/N Attention
OU The Input cable should be no longer than 20 inches (50cm max.).
J The optional "Preliminary (Prelim)" weight is set by F-Function.
See F-12 page 41.
Page 52 | Owners-AD-4323-v.3.d
BATCH WEIGHING MODE
EN Setpoint Wiring Diagram and Input Pins Used when F-70 смо |
Free Fall
Final Weight
Lo Limit
Preliminary (Prelim.)
113 | 5 | 7 | 9 11] 11 35| 7
12 4 6 8 10 122 4 6 8
A B
Pin Signal Pin Signal
A-1 1 B-1 | Prelim. 109 Common
A-2 | 2 B-2 | Prelim. 107 Common
A-3 | 4 B-3 | Prelim. 102 Common
A-4 | 8 B-4 | Prelim. 103 Common
A-5 | Final Weight 10° Common B-5 | HiLimit 10° Common
A-6 | Final Weight 10! Common B-6 | Hi Limit 101 Common
A-7 | Final Weight 102 Common B-7 | Lo Limit 109 Common
A-8 | Final Weight 103 Common B-8 | Lo Limit 101 Common
A-9 Final Weight 104 Common B-9
A-10 | Fee Fall 109 Common B-10
A-11 | Fee Fall 101 Common B-11 | Internal Use
A-12 | Fee Fall 102 Common || B-12 | Shield (SHD)
Owners-AD-4323-v.3.d Page 53
TIMING - NORMAL BATCHING [Frome |
Customer Programmed Control Mode
Min this example:
AD-4323 means performed by the AD-
4323 controller; «Program means
performed by a customer generated
program, «Operator or Program means
performed by an operator, or by the
customer generated program.
Flow = 4 + Flow
Gate Medium — Gate J Pin Numbers refer to the Control 1/0
| . Flow Gate Interface.
Fas - The following are connected: «Optional
| о Prelim Output (pin B2) to the Weighing
Load Cell 209” LoadCell Hopper Full-Flow Gate controller;
= Prelim Output (pin B3) to the Medium-
Weighing Hopper Discharge Gate Flow Gate controller; and -Final Output
(pin B4) to the Dribble-Flow Gate
controller.
Start The Weighing Hopper is empty, the display shows "0", and all
Gates are closed.
Operator or If the display is not at Zero, input a Tare signal (pin A2) to Rezero
Program the display (please use a Zero signal (A1) for multiple ingredient
batching).
Operator or | Open the Supplying Bin's: Full-Flow Gate, Medium-Flow Gate,
Program and Dribble-Flow Gate.
AD-4323 When the display reaches Optional Prelim. (Final minus Optional
Prelim. value - see F-Function "F-12"), the Optional Prelim.
Output signal will be sent, or - "come ON".
Program Close the Full-Flow Gate by using the Optional Prelim. Output ON
signal.
AD-4323 When the display reaches Prelim. (Final minus Prelim. value) the
Prelim. Output signal will be sent, or - "come ON",
Program Close the Medium-Flow Gate by using the Prelim. Output ON
signal.
AD-4323 When the display reaches Free Fall. (Final minus Free Fall value)
the Final Output signal will be sent, or - "come ON".
Program Close the Dribble Gate by using the Final Output ON signal.
Program After Free Fall has stopped - Check that the Hi Limit, and Lo Limit
signals are OFF. If both outputs are OFF then the batch is
completed correctly.
Note If you wish to use the Automatic Free Fall Compensation ("F-14")
- please input the Free Fall Compensation Command via the
Control 1/O interface Pin A5. The Free Fall value will then be
changed to the new value.
If you change the Free Fall setpoint by the Thumbwheel switch -
Page 54 Owners-AD-4323-v.3.d
then the learned Free Fall value will be cleared and the new
setpoint Free Fall value is entered.
Program The AD-4323 does not have a Discharge Gate control for the
Weighing Hopper - use the Final signal plus a time period as the
control signal to open the Weighing Hopper Discharge Gate.
AD-4323 When the Gross weight is below Zero Band ("F-11"), the Zero
Band Output will come ON - signifying the weighing Hopper is
empty.
Program Close the Weighing Hopper Discharge Gate by using the Zero
Band Output ON signal.
AD-4323 Ready for next batching event.
F-15 is set at "1" |
Free Fall Final — F-70 is set at "0"
Preliminary
Woignt Optional Prelim.
Empty
0
AD-4323 /
Display — \
(ON) pin
Optional Prelim. (Ful-Flow) Bo
Preliminary (Prelim.) Medium-Flow) | Ba
Final (Pribble-Flow) | | B4
Hi Limit | | B5
Lo Limit | B6
ZERO Band | B1
Owners-AD-4323-v.3.d Page 55
TIMING - LOSS-IN-WEIGHT [Бонна]
Customer Programmed Control Mode
Mn this example:
Start
Operator or
Program
AD-4323
Program
Note
Operator or
Program
AD-4323
Operator or
Program
AD-4323
Program
Comment
AD-4323
ete
OL
A
Cry
a
rae ie
Load Cell о | 2 . |
+ Receiving Bin
J AD-4323 means performed by the AD-
4323 controller; «Program means
performed by a customer generated
program, *«Operator or Program means
performed by an operator, or by the
customer generated program.
4 Pin Numbers refer to the Control 1/0
Interface.
- The following are connected: «Optional
Prelim Output (pin B2) to the Supplying
Bin Gate controller; «Prelim Output (pin
B3) to the Weighing Hopper Full-Flow
Gate controller; and «Final Output (pin
B4) to the Weighing Hopper Dribble-
Flow Gate controller.
Нея
The Weighing Hopper is empty as is the Receiving Bin. The
display shows "0". All Gates are closed.
Open the Supplying Bin Gate.
When the display reaches Optional Prelim. (Optional Prelim.
value - see F-Function "F-12"), then the Optional Prelim. Output
signal will be sent, or - "come ON".
Close the Supplying Bin Gate by using the Optional Prelim.
Output ON signal.
The displayed weight will exceed the Optional Prelim. value by
the Free Fall value. This weight is not necessarily accurate - but
accuracy is not need here since the purpose of this event is to fill
up the Weighing Hopper. The Optional Prelim value is always
compared to Gross weight.
Input a Tare signal (pin A2) to Zero the display.
Display goes to Zero.
Open Hopper Full-Flow Gate and Weighing Hopper Dribble-Flow
Gate for Full-Flow filling into the Receiving Bin.
When the display reaches Prelim. (Final minus Prelim. value) the
Prelim. Output signal will be sent, or - "come ON".
Close the Hopper Full-Flow Gate using the Prelim. Output ON
signal.
Full-Flow filling is now completed.
When the display reaches Free Fall. (Final minus Free Fall value)
the Final Output signal will be sent, or - "come ON".
Page 56
Owners-AD-4323-v.3.d
Close the Weighing Hopper Dribble-Flow Gate by using the
Program
Final Output ON signal.
AD-4323 After Free Fall has stopped, the display may show the Final
value.
Note If you use the Hi Limit and Lo Limit signal, please check that both
Hi and Lo Limit's signals are OFF - meaning the final weight is
with acceptable limits, and the Receiving Bin has received the
correct weight.
AD-4323 If the Gross Weight of the Weighing Hopper is below the Zero
Band Setpoint ("F-11")- the Zero Band Output will be ON.
Note Please use Zero Band Output for refilling if needed.
AD-4323 Ready for next batching event.
F-15 is set at "2" |
Ootional F-70 is set at "0" |
ptonatrs_ -
Prelim.
Actual Preliminary
Weight
a Fall
Empty LFinal
“Optional
Prelim.
0 CE EES P SR EE En. hero dre E be DESTETE TETU 6
AD-4323 N. /
Display
DN у
(ОМ) pin
TARE „(оке Mi A2
Optional Prelim. (Hopper Fil
Preliminary (Prelim. )(Full-Flow) | B3
Final (Dribble-Flow) B4
Hi Limit | | B5
Lo Limit — | ) B6
ZERO Band — | | | Bi
Owners-AD-4323-v.3.d
Page 57
B2
TIMING - NORMAL BATCHING [Fron |
Built-in Automatic Program
Mn this example:
J AD-4323 means performed by the AD-
4323 controller; Built-In Auto Program
means performed by the AD-4323 Built-
In Automatic Program controller;
Operator or Program means performed by
A
EN Supplying sua
Bin ES
su
ET
E
E : i
Full 224 EZ] EJ Dribble
E an operator, or by a customer generated
Flow 4 4 4 Flow program.
Gate Medium Gate J Pin Numbers refer to the Control МО
Flow Gate Interface.
Weighing - The following are connected: «Optional
Prelim Output (pin B2) to the Weighing
Hopper Full-Flow Gate controller;
Prelim Output (pin B3) to the Medium-
Flow Gate controller; and «Final Output
(pin B4) to the Dribble-Flow Gate
controller. Start signal Input is from pin
Ad.
ALA
Weighing Hopper Discharge Gate
Start The Weighing Hopper is empty, the display shows "0", and all
Gates are closed.
Operator or | |Ifthe display is not at Zero, please input a Tare signal (pin A2) to
Program Rezero the display (please use a Zero signal (A1) for multiple
ingredient batching).
Operator or | Check that the Weighing Hopper is empty by using the Zero Band
Program Output ("F-11"). Input the Start signal via the control I/O interface
connector (A4).
Built-In Auto | When the Start signal is received, the: Optional Prelim. (see F-
Program Function "F-12"), Prelim., and Final Outputs go ON.
Comment If Gate switch control relays are connected as listed above - the
“Supplying Bin Gates will be opened using the Optional Prelim.,
Prelim., and Final Output - ON signal.
AD-4323 When the display reaches Optional Prelim. (Final minus Optional
Prelim. value), the Optional Prelim. Output signal will be OFF.
comment | The Full-Flow Gate will be closed by using the Optional Prelim.
Output OFF signal.
AD-4323 When the display reaches Prelim. (Final minus Prelim. value), the
Prelim. Output signal will be OFF.
Comment The Medium-Flow Gate will be closed by using the Prelim. Output
OFF signal.
AD-4323 When the display reaches Free Fall (Final minus Free Fall value),
the Final Output signal will be OFF.
Comment The Dribble Gate will be closed by using the Final Output OFF
signal.
Page 58 | Owners-AD-4323-v.3.d
Built-In Auto
Signal Pulse Width “F 10”
Batch Finish signal is sent after the set time period (see "F-18")
Program or when display is stable ("F-18" default).
F-15 is set at "3" |
| F-70 is set at "0"
Final I
Free Fall ° e
Preliminary |
Actual Optional Prelim.
Weight (Batch) Finish
Start ZERO Band ON
Vy
0
al
AD-4323 7
Display /
0 | ‘ Ъ
(ON) pin
TARE . (OFF) [1 A2
Optional Prelim. *“0w B2
Preliminary (Prelim.) (Medium Flow B3
Final (Dribble-Flow) | BA
Hi Limit ||... | BS
Lo Limit | »rocoreventemrveairera AE | B6
ZERO Band | B1
| | Finish N
(Batch) Finish 1 Time "F 18"
eL B7
Data Output |
04
Auto Print Mode (BCD, RS-232C, Current Loop)
Start | |
A4
If you use Hi and Lo Limits - after Free Fall has stopped - check
Operator or
Program that both signals are OFF. If both outputs are OFF then the batch
Is completed correctly.
> Automatic Free Fall ("F-14") is now recalculated for the next
Xv event. If you change the Free Fall setpoint by the Thumbwheel
switch - then the learned Free Fall value will be cleared and the
new setpoint Free Fall value is entered.
Comment The Weighing Hopper Discharge Gate will be opened by using
the Finish Output ON signal.
Owners-AD-4323-v.3.d Page 59
Built-In Auto | Data output is sent (Auto Print Mode: BCD, RS-232C, or Current
Program Loop).
AD-4323 Ready for next batching event.
À If an Abort signal is sent (pin A5) anytime after the Start signal is
XK received, then the:
| * Optional Prelim., Prelim., and Final signals go to OFF, -
Gates will be closed.
» Batch Finish and Data Output signals will be sent.
Abo: During a normal batching event, do not press the TARE or
STANDBY/OPERATE keys.
Ako: Please note that the idea of Free Fall is based upon the concept
of solids falling (after the flow has been cut to zero) from a
Supplying Bin into a Weighing Hopper . When liquids are being
added to a Weighing Hopper, wave propagation must be kept to
a minimum to avoid load oscillation. If a submerged filling probe
is employed (which may mean zero Free Fall) liquid displace-
ment must be taken into consideration.
Page 60 Owners-AD-4323-v.3.d
TIMING - LOSS-IN-WEIGHT Era
Built-in Automatic Program
En this example:
J AD-4323 means performed by the AD-
Start
Operator or
Program
AD-4323
Comment
N,
&
Operator or
Program
AD-4323
Operator or
Program
Built-In Auto
Program
Comment
— Owners-AD-4323-v.3.d
0 Supplying
a e SARA
Load Cell WE?
t Receiving Bin
зв: 4323 controller; Built-In Auto Program
Si means performed by the AD-4323 Built-
In Automatic Program controller;
‘Operator or Program means performed
by an operator, or by a customer
generated program.
Load Cel 1 Pin Numbers refer to the Control 1/0
Interface.
J The following are connected: *Optional
Prelim Output (pin B2) to the Supplying
Bin Gate controller; «Prelim Output (pin
B3) to the Weighing Hopper Full-Flow
Gate controller; and «Final Output (pin
B4) to the Weighing Hopper Dribble-
Flow Gate controller. «Start signal Input
Is from pin A4.
The Weighing Hopper is empty as is the Receiving Bin. The
display shows "0". All Gates are closed.
Open the Supplying Bin Gate.
When the display reaches Optional Prelim. (Optional Prelim.
value - see F-Function "F-12"), then the Optional Prelim. Output
signal will be sent, or - "come ON".
If Gate switch control relays are connected as listed above - the
Supplying Bin Gate will be closed by using the Optional Prelim.
Output ON signal.
The displayed weight will exceed the Optional Prelim. value by
the Free Fall value. This weight is not necessarily accurate - but
accuracy is not need here since the purpose of this event is to fill
up the Weighing Hopper. The Optional Prelim value is always
compared to Gross weight.
Input a Tare signal (pin A2) to Zero the display.
Display goes to Zero.
Input the Start signal via the control I/O interface connector (A4).
When the Start signal is received, the: Prelim. and Final Outputs
go ON.
The Weighing Hopper Full-Flow Gate and Weighing Hopper
Dribble-Flow Gate will be opened by using the Prelim. Output
and Final - ON signal.
Page 61
F-15 is set at "4"
F-70 is set at "0"
Optional
Prelim.
Actual
Weight Preliminary
Nee Fall
N. J Start
[| Empty 1 Final
y Y
, DA
AD-4323 or |
Display E re ъ UNT
(ON) | pin
TARE ог, Ш AD
Optional Prelim. (Hopper Fil) | B2
Preliminary (Prelim.)(Fuli-Flow) B3
Final(Dribble-Flow) B4
Hi Limit | | В5
Lo Limit | Be
ZERO Band | B1
| Finish Time “F-1 q
(Batch) Finish ' B7
Data Output |
Auto Print Mode (BCD, RS-232C, Current Loop) |
Start Г A4
AD-4323 When the display reaches Prelim. (Final minus Optional Prelim.
value), the Prelim. Output signal will be OFF.
Comment The Weighing Hopper Full-Flow Gate will be closed by using the
Optional Prelim. Output OFF signal.
AD-4323 When the display reaches Free Fall (Final minus Free Fall value),
the Final Output signal will be OFF,
Comment The Weighing Hopper Dribble Gate will be closed by using the
Final Output OFF signal.
Page 62 Owners-AD-4323-v.3.d
Built-In Auto
Program
AD-4323
Operator or
Program
©
Built-In Auto
Program
Note
AD-4323
N
e
Abo:
Abo:
Owners-AD-4323-v.3.d
Batch Finish signal is sent after the set time period (see "F-18")
or when stable ("F-18" default).
After Free Fall has stopped, the display may show the Final
value.
If you use Hi and Lo Limits - after Free Fall has stopped - check
that both signals are OFF. If both outputs are OFF then the batch
Is completed correctly.
Automatic Free Fall ("F-14") is now recalculated for the next
event. If you change the Free Fall setpoint by the Thumbwheel
switch - then the learned Free Fall value will be cleared and the
new setpoint Free Fall value is entered.
Data output is sent (Auto Print Mode: BCD, RS-232C, or Current
Loop).
Please use Zero Band Output for refilling if needed.
Ready for next batching event.
If an Abort signal is sent (pin A5) anytime after the Start signal is
received, then the:
- Prelim., and Final signals go to OFF, - Gates will be closed.
- Batch Finish and Data Output signals will be sent.
During a normal batching event, do not press the TARE or
STANDBY/OPERATE keys.
Please note that the idea of Free Fall is based upon the concept
of solids falling (after the flow has been cut to zero) from a
Supplying Bin into a Weighing Hopper . When liquids are being
added to a Weighing Hopper, wave propagation must be kept to
a minimum to avoid load oscillation. If a submerged filling probe
is employed (which may mean zero Free Fall) liquid displace-
ment must be taken into consideration.
Page 63
CONTROL 1/0 EXTERNAL INTERFACE |
CHECK MODE
Used when F-70 is set at "1"
CHECK WEIGHING MODE
E Pin Assignment:
Pin Signal Name
A-1 ZERO Inout AD-4323 returns to the center of ZERO when the weighing
Р device is empty. | o
AD TARE Input AD-4323 switches to NET mode, ZERO's the display and stores
| the TARE weight in memory.
A-3 TARE Reset TARE value is cleared "0". |
When imput is opened, AD-4323 will get the data
A-4 Setpoint 'data’ read inhibit | from the setpoints (thumbwheels).
input When input is shorted to common (A8), AD-4323 will stop
to get the data from setpoints, and from the RS-232C.
A-5 Display HOLD command When input is shorted to common (A8), AD-4323 will
input freeze all data output and the display.
A-6 PRINT command If this command is accepted, data output will be sent
Input. one time.
1) If Gross weight is out of the 2%/10% ZERO range when
A-7 Error Output ZERO input is accepted.
2) Overload, or Underload.
A-8 Common
B-1 ZERO Band Output B-5 | High Ouptut
B-2 Low Low Ouptut B-6 | High High Ouptut
B-3 Low Ouptut B-7 | Do Not use this pin!
B-4 | Go Ouptut B-8 | Motion Detection Ouptut en moon
INPUT
+V
e ! About 5mA
L
d——
|
}
A
У
'
t
!
и ©
Common
AD-4323
OUTPUT
+V — +V
is LC
4. + à
' 7
| N Y hy, | Or
N OT
+ à d +
< | Common <
AD-4323
‘With the above OUTPUT circuit , please use optical isolator or relay.
The excitation (or driving) capacity of these relays are 24V 50mA DC maximum.
*The width of these inputs are at least 200msec.
Page 64 Owners-AD-4323-v.3.d
SETPOINT INTERFACE |
CHECK COMPARISON MODE 1 Used when F-70 is set at "1"
CHECK WEIGHING MODE |
E Push Button Thumbwheels
The following groups of thumbwheel switches can be directly interfaced:
(a) Target Weight (5 digits) (b) High Limit (5 digits)
(с) Low Weight (5 digits)
a If Min. Division is 2 10: then (a), (b), and (c) will be multiplied by ten before
the Comparator compares the data.. |
0d The Least Significant Digit (LSD) of a thumbwheel switch group
corresponds to the LSD of the weight display.
Ш Setpoint Condition
Output closes under the following conditions:
Q Qutput J Condition
ZERO Band Output "Gross Weight" < "ZERO Band".
High High Output "Net weight" > "High High Limit".
High Output "Net weight" > "Target Weight + High Limit".
Go Output "Target Weight - Low Limit” < "Net Weight" < "Target Weight + High Limit".
Low Output "Net Weight" < "Target Weight - Low Limit".
Low Low Output "Net Weight" < "Low Low Limit".
N Pin Numbers | |
1211 10 98 7 65 4 3 2 1
O0O0O00000O0000 A
O000000O0O0OD0O0OO B
/9\ Attention
Q The Input cable should be no longer than 20 inches (50cm max.).
QA The "High High Limit" and "Low Low Limit" are set by
F-Functions. See F-61 and F-64 page 47.
Owners-AD-4323-v.3.d Page 65
MW Setpoint Wiring Diagram and Input Pins | Used when F-70 is set at "1"
and F-15 is set at "1"
Target Weight
High Limit
Low Limit
CHECK WEIGHING MODE
1 | 3 | 5 | 71 9 | 111 3 | 5 |7
|2 4 6 8 10 12}2 4 6 12
А В
Pin Signal Pin Signal
A-1 1 B-1 High Limit 10% Common
A-2 2 B-2 High Limit 104 Common
A-3 4 B-3 | Low Limit 10% Common
A-4 8 B-4 | Low Limit 101 Common
A-5 | Target Weight 10% Common B-5 | Low Limit 102 Common
A-6 | Target Weight 101 Common B-6 | Low Limit 10% Common
A-7 Target Weight 10% Common B-7 | Low Limit 104 Common
A-8 | Target Weight 10% Common B-8
A-9 Target Weight 104 Common B-9
A-10 | High Limit 10% Common B-10
A-11 | High Limit 101 Common B-11 | Internal Use
A-12 | High Limit 102 Common B-12
Shield (SHD)
Page 66
Owners-AD-4323-v.3.d
E Comparison Mode 1
Actual Weight
(Gross)
ZERO Band
0
AD-4323 Display
High High Limit (F-61)
Target Weight + High Limit
Target Weight
Target Weight - Low Limit
Low Limit (F-64)
High High Output
High Output
Go Output
Owners-AD-4323-v.3.d
EA a alm ww af
o WR ED AD RA A AE Dana ey
A ER ED WUE E WP AN EE EE EA a ul 8 99 RSE
A EYE WE WS OW vw de el dl RE EEE WE EE Ws A A EA ERE Ea
pin
A2
B1
7, 56
WwA7777 Bs
we
Low Output 220000
Low Low Output 77777
+ - о" ".
MA Ba
B3
B2
Page 67
SETPOINT INTERFACE |
CH ECK COM PARISON MODE 2 Used whet Ad set a! >
CHECK WEIGHING MODE |
E Push Button Thumbwheels
The following groups of thumbwheel switches can be directly interfaced:
(a) Target Weight (5 digits) (b) High Limit (5 digits)
(с) Low Weight (5 digits)
O If Min. Division is 2 10: then (a), (b), and (c) will be multiplied by ten before
the Comparator compares the data. =
В The Least Significant Digit (LSD) of a thumbwheel switch group
corresponds to the LSD of the weight display.
WM Setpoint Condition
Output closes under the following conditions:
OU Output J Condition
ZERO Band Output "Gross Weight" < "ZERO Band".
High High Output "Net weight" > "Target Weight + High High Limit".
High Output "Target Weight + High Limit" < "Net Weight" < "Target Weight + High High Limit".
Go Output “Target Weight - Low Limit" < "Net Weight" < "Target Weight + High Limit”.
Low Output "Target Weight - Low Low Limit" < "Net Weight" < "Target Weight - Low Limit".
Low Low Output "Net Weight" < "Target Weight - Low Low Limit".
E Pin Numbers
1211109 8 7 6 5 4 3 2 1
O0O0O000000000 A
O OQCOOCOOCOOCCOO B
/9\ Attention 1
OU The Input cable should be no longer than 20 inches (50cm max.).
D The "High High Limit" and "Low Low Limit" are set by
F-Functions. See F-61 and F-64 page 47.
Page 68 - | Owners-AD-4323-v.3.d
EM Setpoint Wiring Diagram and Input Pins | Used when F-70 is set at 1"
and F-15 is set at "2"
Target Weight
High Limit
Low Limit
CHECK WEIGHING MODE
|i3|5)7)9)n) 1]als]7:
|2 4 6 8 10 1212 4 6 12
A B
Pin Signal Pin Signal
A-1 1 B-1 High Limit 10% Common
A-2 2 B-2 | High Limit 104 Common
A-3 4 B-3 | Low Limit 10° Common
A-4 8 B-4 | Low Limit 101 Common
A-5 | Target Weight 10° Common B-5 | Low Limit 10 2 Common
A-6 Target Weight 101 Common B-6 | Low Limit 108 Common
A-7 | Target Weight 102 Common B-7 | Low Limit 10% Common
A-8 | Target Weight 10% Common B-8
A-9 Target Weight 104 Common B-9
A-10 | High Limit 109 Common B-10
A-11 | High Limit 101 Common B-11 | Internal Use
A-12 | High Limit 10° Common B-12 | Shield (SHD)
Owners-AD-4323-v.3.d Page 69
M Comparison Mode 2
Actual Weight
(Gross)
ZERO Band L----..-eme—.
0
AD-4323 Display
Target Weight + High High Limit }-----<-<-<<-<<<<-e-<-ceeccc ce mnnu mme mene ne |
Target Weight + High Limit L.............J.............._.
Target Weight }---------<<-<<grcunecemeeu mme ame e neue nee
Target Weight - Low Limit e=-=======ccanaduonacananononena
Target Weight - Low Low Limit — f-=========cenqueucanon
0
(ON)
TARE corr,
ZERO Band zzz
High High Output
High Output
Go Output
Low Output
Low Low Output
Page 70 — Owners-AD-4323-v.3.d
SETPOINT INTERFACE |
CHECK COMPARISON MODE 3 Used when F-70 is set at "1"
and F-15 is set at "3"
CHECK WEIGHING MODE
EN Push Button Thumbwheels
The following groups of thumbwheel switches can be directly interfaced:
(a) High Limit (5 digits) (b) Low Limit (5 digits)
ad If Min. Division is 2 10: then (a) and (b) will be multiplied by ten before the
Comparator compares the data.
Q The Least Significant Digit (LSD) of a thumbwheel switch group
corresponds to the LSD of the weight display.
Ш Setpoint Condition
Output closes under the following conditions:
QO Output J Condition
ZERO Band Output "Gross Weight" < "ZERO Band".
High High Output "Net weight" > "High High Limit".
High Output "Net weight" > "High Limit".
Go Output "Low Limit" < "Net weight < "High Limit".
Low Output "Net Weight" < "Low Limit".
Low Low Output "Net Weight" < "Low Low Limit".
EN Pin Numbers
121110 9 8 7 6 5 4 3 2 1
OOOOOOOO0O0O000D0
OOOOOOOOOO00O0
Attention
D The Input cable should be no longer than 20 inches (50cm max.).
OQ The "High High Limit" and "Low Low Limit" are set by
F-Functions. See F-61 and F-64 page 47.
wo >
Owners-AD-4323-v.3.d Page 71
MW Setpoint Wiring Diagram and Input Pins | Used when Ро s sel a T
CHECK WEIGHING MODE
Low Limit
High Limit
11} 13| 5 |7:
{2 4 10 12f2 4 6 12
A B
Pin Signal Pin Signal
A-1 1 B-1 High Limit 10° Common
A-2 2 B-2 | High Limit 10% Common
A-3 4 B-3 | Low Limit 10% Common
A-4 8 B-4 | Low Limit 101 Common
A-5 B-5 | Low Limit 102 Common
A-6 B-6 | Low Limit 103 Common
A-7 B-7 | Low Limit 104% Common
A-8 B-8
A-9 B-9
A-10 | High Limit 109 Common B-10
A-11 | High Limit 101 Common B-11 | Internal Use
A-12 | High Limit 102 Common B-12 | Shield (SHD)
Page 72
Owners-AD-4323-v.3.d
Ш Comparison Mode 3
Actual Weight
(Gross)
ZERO Band
0
AD-4323 Display
High High Limit (F-61) |j-----------===4-===========e=enenenenconannaaaco
High Limit [L.....1120000 80e coco ec ec ee cen memes esse cm ee
oT cmo.
Low Low Limit (F-64) |===-====c==o=adaannnon
0
(ON)
(OFF)
ZERO Band ZZ
High High Output
High Output
Go Output
TARE
Low Output
Low Low Output -
tr
CON a a
A
Owners-AD-4323-v.3.d Page 73
SETPOINT INTERFACE |
CHECK COMPARISON MODE 4 2e]
CHECK WEIGHING MODE
WM Push Button Thumbwheels
The following groups of thumbwheel switches can be directly interfaced:
(a) High High Limit (4 digits) (b) High Limit (4 digits)
(c) Low Limit (4 digits) (d) Low Low Limit (4 digits)
O If Min. Division is 2 10: then (a), (b), (c), and (d) will be multiplied by ten
before the Comparator compares the data.
OU The Least Significant Digit (LSD) of a thumbwheel switch group
corresponds to the LSD of the weight display.
Ш Setpoint Condition
Output closes under the following conditions:
OU Qutput J Condition
ZERO Band Output "Gross Weight" < "ZERO Band".
High High Output "Net weight" > "High High Limit".
High Output "High Limit" < "Net Weight < "High High Limit".
Go Output “Low Limit” < "Net Weight" < "High Limit".
Low Output “Low Low Limit" < "Net Weight" < "Low Limit".
Low Low Output "Net Weight" < "Low Low Limit".
E Pin Numbers
1211 10 98 7 6 5 4 3 2 1
000000000000 A
OCOOCOOCOCOO0NCO B
/9\ Attention =.
Q The Input cable should be no longer than 20 inches (50cm max.).
QU The "High High Limit" and "Low Low Limit" are set by
F-Functions. See F-61 and F-64 page 47.
Page 74 Owners-AD-4323-v.3.d
WM Setpoint Wiring Diagram and Input Pins | Used whet esca a”
CHECK WEIGHING MODE
High Limit
High Limit
Hi
Low Low Limit
Low Limit
1 |3 | 5171 911] 113 БЕТ:
$2 4 6 8 10 12}2 4 6 812
A B
Pin | Signal Pin Signal
A-1 1 | B-1 | Low Limit 109 Common
A-2 2 B-2 | Low Limit 10? Common
A-3 4 B-3 | Low Limit 102 Common
A-4 8 B-4 | Low Limit 10% Common
A-5 High High Limit 10° Common B-5 | Low Low Limit 10 9 Common
A-6 High High Limit 101 Common B-6 | Low Low Limit 10 1 Common
A-7 High High Limit 102 Common B-7 | Low Low Limit 10 2 Common
A-8 High High Limit 103 Common B-8 | Low Low Limit 10 * Common
A-9 High Limit 10° Common B-9
A-10 | High Limit 101 Common B-10
A-11 | High Limit 102 Common B-11 | Internal Use
A-12 | High Limit 10% Common B-12 | Shield (SHD)
Owners-AD-4323-v.3.d Page 75
E Comparison Mode 4
Actual Weight
(Gross)
ZERO Band
0
AD-4323 Display
High High Limit
LIEU EE te du NE ADC EWE Www OE A AE EEE
High Limit |...
my в AD WE EE EER UR WE CE te Ed ЧА BE а EEE WET Ewa a SE
I
i
i
Y
1
}
'
'
I
1
'
4
i
+
i
i
1
]
+
+
1
+
i
Low Limit [.---=een==camaltonan
Low Low Limit f.==ec===conce=tavanoo
0
(ON)
(OFF)
TARE
ZERO Band Zee
High High Output
High Output
Go Output
Low Output
Low Low Output 7777777
Page 76 Owners-AD-4323-v.3.d
SETPOINT INTERFACE Used when F-70 is set at "1"
CHECK COMPARISON MODE 5 and F-15 is set at "5"
CHECK WEIGHING MODE
EN Setpoint Condition
Output closes under the following conditions, set by F-Functions F-61 — F-64:
OU Output 4 Condition
ZERO Band Output "Gross Weight" < "ZERO Band".
High High Output "Net weight" > "High High Limit".
High Output "High Limit” < "Net weight" < "High High Limit".
Go Output "Low Limit" < "Net Weight" < "High Limit".
Low Output "Low Low Limit" < "Net Weight" < "Low Limit”.
Low Low Output "Net Weight" < "Low Low Limit".
E Comparison Mode 5
Actual Weight
(Gross)
ZERO Band
0
AD-4323 Display
High High Limit (F-61) |-----------==-t=-======-=ere eee m emma
High Limit (F-62) |........—————-
o WE WE ER EN OEE WL EN OEE ES EE WR he gh Ap WW EE РР ОЧ WON OW ERE ED ER WA
= = = = = = =
ты ча —
Low Limit (F-63) |---=----ннннннённннннннеснснненееое
=- + — a = —
Low Low Limit (F-64) |-e-e-=emenanan
0
(ON)
TARE or
ZERO Band
High High Output
High Output
Go Output
B5
B4
Low Output B3
Low Low Output nern B2
и
0 ra ra, ES
Owners-AD-4323-v.3.d Page 77
SET WEIGHT VALUE VIEW MODE
Connect the Load Cell(s) and remove any weight before entering this check mode.
Step 1.
(A)
(B)
(C)
EELECE 2 | OH -Slide the left dip-switch (check) ONT.
ЛЕНТ
The display will come ON with a full
ССС display. ”
The display will blank during a RAM check,
followed by;
[Used when F-70 is set at "0" ww
BATCH WEIGHING MODE
QO The Setpoint FINAL Value will be
displayed ("XXXXX" here denotes the
value), followed by;
\/ V м v м
ANANA
@ The Setpoint FREE FALL Value will be displayed,
followed by;
O The Setpoint PRELIM Value will be displayed,
followed by;
O The Setpoint HIGH Value will be displayed,
followed by;
© The Setpoint LOW Value will be displayed,
followed by; |
| Used when F-70 is set at "1"
eon WEIGHING MODE u |
O The TARGET WEIGHT Value will be
displayed ( XXXXX" here denotes the
value), followed by;
Y Y Y Y V
| ANANA
O The HIGH LIMIT Value will be displayed, followed by;
O The LOW LIMIT Value will be displayed, followed by;
O Please note that the HIGH HIGH LIMIT value and
the LOW LOW LIMIT value will not be displayed as
they can only be set by F-Function (F-61, F-64).
Either LÍ if no connection, or I if a
© Li El LILILICI
4 connection with the CONTROL МО, ог ОР-
ОР-04 | A2 | Ad | as 04, will be displayed, followed by;
A1 A3 AS
Page 78 Owners-AD-4323-v.3.d
/
Step 2. A | will appear when the front panel
Ll el El LILIL] switches are pressed indicating a good
Tare | Print | switch. «Press each key in turn, if the
Zero Net standby display does not change, then the key
Gross Operate switch is bad.
]
Step 3. 000000| 3 ques -Slide the left dip-switch (check) OFF.
C=] =
г ууу ууу | The internal A/D SPAN value will be shown,
LANAI | followed by;
y | "End" will be displayed for a couple of
CTC seconds, and then the display will return to
normal.
Owners-AD-4323-v.3.d Page 79
STANDARD SERIAL OUTPUT
The Serial Output Connector is for a printer, score board, or similar device.
Please refer to the following F-Functions for settings:
| Q For Standard Current Loop |
F 21 Baud Rate 600, 2400 Baud.
F 22 Output Data Display, GROSS, NET, Tare or
Gross+Net+Tare Data.
F 23 Output Mode Stream, Auto Print, Print Key
F 24 Output Availability Always Available, or Stable Only,
Ш Stream Mode:
In this mode data will be transmitted whenever new data becomes
available. However, the sampling rate is so fast that there is a possibility
the output will not be the latest data - that this case the output wave form is:
Display Update X À X Хх
Serial Ouptut
E Auto Print Mode:
OU Customer Program Control Modes: The data is sent once when the
Optional Prelim., Prelim., and Final have all been reached (ON) and the
display is stable. The Auto Print function will reset if the net-weight data
falls below +5D.
OQ Built-in Automatic Program Control Modes: The data is sent when
the (batch) Finish signal is sent.
Ш Manual Mode:
The data is sent when I/O control AG pin is shorted to the common or PRINT
key 1$ pushed.
BM Pin Assignment:
Pin Assignment
№ С.
Frame Ground (GND) Connector: TCS 0270
Serial Output *
N.C.
Serial Output *
N.C.
N.C.
a
*Output has no polarity -- bi-directional
VU DU SOI D =
Page 80 Owners-AD-4323-v.3.d
AD-4323 Weighing Indicator |
Options
— E A TRE FPL aS re
Da "e
Owners-AD-4323-v.3.d Page 81
PARALLEL BCD OUTPUT Option OP-01
The Parallel BCD Output Connector is for sending weight data to a printer, score
board, PLC (Programmed Logic Control). Please refer to the following F-Functions:
The following formats and modes are selected
E Transmission Mode: by F-Functions:
F 31 Output Data Display, GROSS, NET, or Tare Data.
F 32 Output Mode Stream, Auto Print, PRINT Key.
F 33 Output Logic Positive Logic, Negative Logic.
EN Pin Assignment:
Pin Signal Pin Signal
1 Ground (GND) 26 | Hi = Net Lo = Gross
2 1x 109 27 { N.C.
3 | 2x109 28 |N.C.
4 4 x 10° 29 | N.C,
5 8х 10° | 30 | Internally Used
6 1x 10° 31 N. C.
7 2x10 32 | N.C.
8 4 x 101 33 | Lo = Motion Detection
9 8x10 34 | Lo = kg Mode
10 1x 10° 35 | Lo = kg Mode
11 2х 10° 36 | Lo =kg Mode
12 4x 10? 37 | Hi Permanently
13 8x 10? 38 | Lo = kg Mode
14 1x103 39 | Hi Permanently
15 2x 103 40 | Lo Permanently
16 4x 103 41 | Lo= kg Mode
17 8х 103 42 | Lo = Negative Polarity
18 1x 104 43 | Decimal Pointat 10 1
19 2x104 44 | Decimal Point at 10 2
20 4x 10% 45 | Decimal Point at 10 3
21 8 x 104 46 | Decimal Point at 10 4
22 1х 10° 47 | Overload
23 2х 10° 48 | N.C,
24 4х 10° 49 | Data Valid Trigger
25 8 x 105 | 50 | Hold (input)
J 50 pin connector, TTL Open-Collector Output, fan-out 5, positive/negative
Page 82 Owners-AD-4323-v.3.d
logic. Pins 2 — 25 are data output.
O When HOLD (pin 50) input is accepted by Open-Collector Output or contact
closure, output will go to hold.
d Standard Accessory..... Mating connector (1) 57-30500 (Amphenol).
1.1 Sec
Weight Data >< >< ><
DATA valid trigger | 15msec | | |
>|
Bm BCD Output Circuit: |
common
' 0 +V
: : +
a OL Voltage 30V max.
| Current | 30mA max.
+
<
Output Voltage,
when ON
0.2V Typ
AR
AD-4323
OU The output circuit is an open-collector type. |f you hook-up this line to TTL
Logic, please add a pull-up resistor.
Owners-AD-4323-v.3.d Page 83
RS-232C INTERFACE Option OP-04
Attention
OU The analogue output from Load Cells, and the RS-232C input/output
signals, are sensitive to electrical noise. Do not bind these cables
together as it could result in cross-talk interference. Please also
keep them well away from AC power cables. Keep all cable/coax as
short as possible.
E Transmission Mode:
| Q For Serial Interface Option OP-04 |
The following formats and modes are selected
by F-Functions:
F 41 Baud Rate
600, 1200, 2400, 4800", 9600".
F 42 Output Data
Display, GROSS, NET, Tare Data or
Gross+Net+Tare Data. High Speed Output.
F 43 Output Mode
#1,#2.
Stream, Auto Print, Print Key, Command
F 44 Output Availability
Always Available, Only when Stable
Ш Signal Format
* Not for use with Current Loop Output
Type ElA-RS-2320/Passive 20mA Current Loop.
Method Half-duplex, Asynchronous Transmission, Bi-directional.
Format Baud rate: 600, 1200, 2400, 4800 and 9600 selectable.
Data bit: 7 Stop bit: 1
Parity bit: 1 Even Code: ASCH
LSB MSB
{0 [1 {;2 | 3 | 4 | 5 | 6
a A } | A sion Bit
Start Bit Data Bits Parity Bit
RS-232C 20mA Cur. Loop
1= -5V > —15V 20mA
OMA
0= +5V + +15V
Ш Stream Mode:
The Stream Mode is available for both RS-232C and 20mA Current Loop.
In this mode data will be transmitted whenever new data becomes
available, without receiving any input.
Page 84
Owners-AD-4323-v.3.d
WM Data Format: |
"A
yr
1 2 | CR | LF
t 4
Header 1
OU Header 1:
iL 4 |
Header 2
o OL - Overload, Underload
o ST - Display is Stable (no motion)
+ US - Display is Unstable (in-motion)
0 Weight Data TXD by ASCII numerals plus:
22D (HEX)
"—" (minus)
2B (HEX) "+" (plus)
a Unit 1:
Ш Command Mode #1:
+t ¢
Data (8) Unit
OU Header 2:
o NT - NET Mode
* GS - GROSS Mode
o TR - TARE Data
°20 (НЕХ) " " (space)
°2Е (НЕХ) "." (decimal point)
J Unit 2:
6B (HEX) > kg =
RxD Input a
_ 1 sec (Max)
Ze.
TxD Output Y»
НИЙ
To AD-4323
Command Explanation
AD-4323 Response
Ren LF
*READ-
This is a command to the
AD-4323 to read the data
and transmit.
If "R" is received, the AD-4323 will
send the latest data one time.
Zc LF
-ZERO-
This is a command to the
AD-4323 to ZERO the
display.
If "2" is received, the AD-4323 display
will ZERO and:
Z EN LF will be sent by the AD-4323.
Tey LF
‘TARE:
- This is acommand to the
AD-4323 to TARE the dis-
play and go to NET mode.
If"T" is received, AD-4323 will go to
NET mode, display will ZERO, TARE
ENTERED annunciator will light and:
T E LF will be sent by the AD-4323.
NCI LF
‚NET:
This is a command to the
AD-4323 to change from
GROSS to NET mode.
If "N" is received, AD-4323 display will
change from GROSS to NET mode and:
N e LF will be sent by the AD-4323.
Gen LF
-GROSS-
This is a command to the
AD-4323 to change from
NET to GROSS mode.
If "G" is received, AD-4323 display will
change from NET to GROSS mode and:
С €‘ LF will be sent by the AD-4323,
Owners-AD-4323-v.3.d
Page 85
MN RS-232C '"S" Setpoint Command #2: |
Used when F-70 is set at "0" ww
BATCH WEIGHING MODE |
In addition to Commands "R,Z,T,N,G" there is an additional "S" command for
Setpoint data. If option OP-05 has setpoint value, they will over-ride the AD-
4323's. OP-05 data should be set at "00000", or you must disconnect the cable.
Each setpoint value has six digits followed by carriage return <CR> & Line Feed
<LF>. There are no decimal points or separator.
Final | Free Fall | Prelim. Over Under | Op-Prelim.| Zero Band| ..CR LF
(6 digits) | (6 digits) | (6 digits) (6 digits) (6 digits) -| (6 digits) (6 digits) (1 digit) (1 digit)
Host S<CR> Setpoint Setting
<LF> Data
S<CR>
.AD-4323 <LF> Echo Back
Q F-43 should be set at "5".
O If F-15is set at "1" or "2", then External 1/O pin A4 should be open.
002000000100000200000030000020001000000050 CRLF
, Final Free Fall Prelim. Over Under Op-Prelim. Zero
Example: (200.0) (10.0) (20.0) (3.0) (2.0) (100.0) (5.0)
D if the commands are not accepted for any reason: | “1 LF will be sent by
the AD-4323.
О If an invalid character is received: ? SD LF will be sent by the AD-4323.
Used when F-70 is set at "1" gp
CHECK WEIGHING MODE
Target” High High High Low Low Low 000000 Zero Band CR LF
Weight | Limits | Limits Limits Limits | (6 digits) | (6 digits) | (1 digit) | (1 digit)
(6 digits) | (6 digits) | (6 digits) (6 digits) | (6 digits)
"If Target Weight is not used (F-15 = 3,4, or 5), then send "00000".
O F-43 should be set at "5".
LU External 1/O pin A4 should be shorted to common (Ag).
005000007000006000004000003000000000000050 CRLF
Target High High High Low Low Low Zero
(500.0) (700.0) (600.0) (400.0) (300.0) (000000) (5.0)
Example:
OU If the commands are not accepted for any reason: | “1 LF will be sent by
the AD-4323.
a If an invalid character is received: ? “I LF will be sent by the AD-4323.
Page 86 Owners-AD-4323-v.3.d
If F-Function F-42 is set at either "6" or "7" (update rate = 70/sec), due to the
high transmission rate, the following F-Function settings will be over-ridden:
eF-41 to "5", 9600 BPS; +F-43 to "1", Stream; *F-44 to "1", Output Always
Available. The data is sent in 7 digits (+999999), no decimal points, units or
over/under.
Data is sent in 7 digits, no decimal points
BM High Speed Output:
Example: 32.568kg
CR LF + 3 2 5 6 8 | CR | LF
1 7 1 /
Ш Printers and Other Devices:
1 Frame Ground (AA) FG 1 |
С] = — sd
TT. 2 Transmit Data (BA) N RxD 2 ao
= —
Personal 3 Receive Data (BB) A. TD 3| AD-4323
Computer N° Indicator
4Request to Send (CA RTS 4
designated Data 3 SA) o> RS-232C
Terminal 5Clear to Send (CB) A. CTS 5 à 1/0 5
i Nt esignated Data
E
Одо а 6Data Set Ready (CC) <a DSR 6 Communication
NOT Connected 7 Signal Ground (AB) sa 7 Equipment
. Pins 9 >25 are
8Carrier Detect (CF) a CD 8 NOT Connected
Ш RS-232C Circuit:
1 FG
2 RxD (From TxD)
3 TxD (To RxD)
4 RTS
T
SCIS Rs-232C
6 DSR
7 SG
8 CD
3
Current
Loop
Owners-AD-4323-v.3.d
Page 87
SETPOINT UNIT Option OP-05 |
f FINAL FREE FALL PRELIM > HI Lo ~
оо ооо ее ||) |
À
J
INT IB] EXT | INTIBJEXT 1 мт С) ехт J seLEcT O J Power O|
N $ SETPOINT UNIT
ON
J
aaa ооо
e
INT: Front Panel Figures Select Lamp Power Lamp
EXT: BCD Data Input |
This is an independent unit housed in a separate metal case. It may be directly
interfaced to any AD-4323 via attached cable and connector. This option will
also accept external input signals - which means that it may be used to control
multiple batching operations after receiving external setpoint information.
Activate or Disactivate Control Input.
Power Supply Input
PRY he If shorted, then unit will be activated when
Output Connector for
Ground EXT BCD or DATA IN Daisy Chain is used. cable to AD-4323
; —
DC
© 12-24V GND CONT DATA OUT ®
BCD IN DATA IN
© © | © © © ©
External BCD Set Data Input Daisy Chain Input
MN General Specifications:
Power Requirements DC 11.5V >25V
Operating Temperature 23°F —104°F (-5°C —+40°C)
Operating Humidity 85% or less (non-condensing)
Net Weight 2.2 Ib (1kg) Approximately
Physical Dimensions (inch) 7.6 wide x 4.6 depth x 2.2 height inches
Physical Dimensions (mm) 192 wide x 117 depth x 57 height mm
Panel cut-out Dimen. (inch) | 7.13 wide(+0.04) x 2.087 height(+0-02) inches
Panel cut-out Dimen. (mm) 181 widet+1-9) x 53 height(+0.55 mm
Interface cable 50cm (20 inches) includes a connector.
Page 88 Owners-AD-4323-v.3.d
E Input Data
Setpoint data may be programmed either via the front panel thumbwheels or
through the external input facility.
D Front Panel Thumbwheels
(a) Final Weight (5 digits) (0) Free Fall (3 digits)
(c) Prelim. Weight (4 digits) (d) Hi Limit (2 digits)
(e) Lo Limit (2 digits)
QU External Input
(a) Final Weight (5 digits) (b) Free Fall (3 digits)
(c) Prelim. Weight (4 digits)
N Connections: |
A When Option OP-05 is used in external input mode it must be provided
with DC power. Power is not necessary for the front panel thumbwheels.
D Setpoint Unit OP-05 and AD-4323 ONLY:
+ If just this setpoint unit and AD-4323 are going to be used, external power
is not needed.
« The front panel's internal/external (INT/EXT) switch should be switched
to the INT side.
О With External (EXT) BCD IN (input), or Daisychain:
* |f you are going to use the setpoint unit with an external BCD IN, or with
daisychained units, you will have to have to supply a DC 11.5~ 25V power
supply.
* The setpoint unit will be activated by shorting the CONT terminal (rear
panel).
* When the front panel INT/EXT switches are on the:
o INT side: the settings which are entered by the thumbwheels are used.
o EXT side: the settings which are entered by the external BCD line input
(BCD IN) are used.
» EXAMPLE:
BCD IN
DC CONT DC CONT | de CONT
ri
||| | I
AD-4323 AD-4323 AD-4323 |
© op.os 9 op-os © opos AD-4323 |
o If you shorten the CONT terminal of setpoint unit 8, then unit @ will
be activated. The AD-4323 will get the data from unit €.
o If you shorten the CONT terminal several units at a time, then the
AD-4323 will select the setpoint unit nearest to the AD-4323.
Owners-AD-4323-v.3.d Page 89
M Pin Assignment for EXT BCD Input:
Signal
№ Fuse Replacement:
DO To replace the fuse, please remove the top cover.
D There is a fuse located on the Printed Circuit Board.
J Fuse:
J Connector:
F7142-
FCN361J048-AG and FCN360C048-B-Fujitsu
0.3A
Page 90
Pin Signal Pin
A1 Ground (GND) B1 1x10!
A2 1 x 10° B2 2x 10°
A3 2х 10° B3 4 x 10!
A4 4x 109 B4 8x10!
A5 8x 10° B5 1x102 [| Free Fall
A6 1x 10° B6 2 x 107
A7 2х 10° В7 4х 10°
AS 4x10' B8 8x10°
A9 8x10 B9 1х 10°
A10 1х 102 | B10 2х 10°
A11 2x 10? Ena B11 4х 10°
А12 4х 102 В12 8х 10°
А13 8 x 10° B13 1x 107
A14 1х 103 В14 2х 10'
А15 2х 103 В15 4 x 10!
A16 4 x 103 B16 8х 10° Prelim.
A17 8x 103 B17 1 x 10°
A18 i x 10° B18 2х 10°
A19 2x 10% B19 4х 10°
А20 4 x 104 — B20 8х 102
A21 1х 10° B21 1х 103
| А22 2х 10° | В22 2х 103
А23 4х 10° Froo Fall | B23 4 x 103
A24 8x10° | | В24 8x10° | —
Owners-AD-4323-v.3.d
№ EXT BDC Input Signal:
MN The input signal has the following requirements:
OU The signal should be BCD data.
OU The Logic should be Negative.
DU The Input Interface should be Open-Collector output, or Dry-Relay
U
Contact.
The Interface circuit of AD-4323-05:
+V
| About 2mA
| | Or
© (
$
AD-4323-05
Owners-AD-4323-v.3.d Page 91
ANALOG OUTPUT Option OP-07
This option is used to transmit the Analog weight data to equipment that is
controlled by Analog signal.
ei ‚ The following formats and modes are selected
E Transmission Mode: | by F-Functions:
| Q For Analog Option OP-07 |
Display, Gross, or Net Data.
F 51 Analog Output Data
F 52 Outputourent display ZERO 0.0mA through 99.9mA.
F 53 Output current at Full Scale 0.0mA through 99.9MA.
Ш Specifications:
Output level 4~20mA effective range. Output range is approx.
2MA to 22MA.
Resolution more than 1/1000.
Temperature Coefficient +(0.015% of rdg + 0.01mA)/°C
Max. Load Resistor 5000 Max.
J The output current when the display is at "0", and at maximum capacity, can
be set from 0.0mA to 99.9mA by F-Functions F-52 & F-53.
J If the output is NET output and the weighing mode is Loss-in-Weight mode,
the Analog output will send the reversed value.
OU For example, to convert current to voltage:
|
do —
HI!
O- - >
\ <
à e
Lo: |
Resistor.
If you add a 25002 resistor,
15v the output will be 1V to 5V
OU Caution!! This resistor must be high enough for the power consumption.
If a 50002 resistor is used, power consumption will be:
W = 1? R = (0.02)? x 500 = 0.2(W).
W = power
I output current
R Resistor
It should be a 1/2W type resistor and have a very low
temperature coefficient. |
I
О Do not connect any GND line, body GND, or similar device.
Page 92 Owners-AD-4323-v.3.d
Ш Setting Output Current:
Output Current can be scaled from ZERO to Full Capacity by F-Functions F-52
and F-53. The setting range is 0.0mA to 99.9mA, by steps of 0.1mA. This
simulated value is calculated by the following formula:
lour = Current
ent ,
Iour = Iz + capaci x (I m-12) Gf 2MA <lour <22mA) Iz = Output at Zero
IM = Output at Max.
Capacity
Current
(F-53) — lz= 4mA, Im= 20mA
> )
|
16 - |
}
|
12 - |
}
\ 8 ~ |
4 ,
(F-52) — ^^ (Iz= 20mA, м= 4тА)
О 4 Simulated Value
Example:
A weighing system has a Max. Capacity of 10,000kg. If you what the current to
be 4mA at ZERO display, and 20mA at 1/5 capacity then:
Current
capacit 7
= = party x (Iour-1z) + 1 36mA | 7
simulated „”
value „”
10,000К 20mA <
= ——2 х (20т А - 4т А) + 4т А
5,000kg ( )
; ) = 36mA
I ) — Simulated Value
0 1/2 Capacity Capacity
When OUTPUT CURRENT AT FULL SCALe (F-53) is set at 36mA, and OUTPUT
CURRENT AT DISPLAY ZERO (F-52) is set at 4mA, then at 1/9 capacity (5,000kg)
the output current will be 20MA. NOTE: The maximum output will be saturated at
22MA.
OU Accessory: BNC type plug: BNC-P-58U.
B® Analog Connector:
Shield
+ er
HI fe = al ql
Solder
LO |
Owners-AD-4323-v.3.d Page 93
DIMENSIONS
AD-4323/Weighing Indicator
- 192 o
> AD-4323 WEGHING INDICATOR _
888508 IS
Y vy v Y Y Y Y
Y 20 мо GIO ET TAM НО
[eo] [eon J [2] [oe]
Ÿ E caf $ sec [ ] |
,
а
&
— 185 —
Г. ANALOG OUT: DATA OUT R
| oC Do °
“eo O
“ee © 0 à
SERIAL OUT
> OO
SET POINT © contro 1/0 D
о © е О a O
O” с O
(x —-
165 -—
mad
Optional Setpoint Unit (OP-05)
FINAL WEIGHT FREE FALL PRELIM. OVER En
[BEE Fil EE |
‚ Не |
NOE
next. INTETJExT. 6 NTE ExT. JsecectO frowen O)
C SN SET POINT UNIT y
192 -
DE
12-24v GNO CONT DATA OUT
8 e
BCO IN
186+ 12 _
8
do
+
S
Y
—
М |
A
112.6 774 _
126.3
Page 94
Owners-AD-4323-v.3.d
MEMORANDA
A&D Company, Limited
3-23-14 Higashi-lkebukuro, Toshima-ku, Tokyo 170 JAPAN
Telephone: [81] (03) 5391-6132 Fax: [81] (03) 5391-6148
ABD ENGINEERING, INC.
1555 McCandless Drive, Milpitas, CA. 95035 U.S.A.
Telephone: [1] (408) 263-5333 Fax: [1] (408) 263-0119
A&D INSTRUMENTS LTD.
Abingdon Science Park, Abingdon, Oxford OX14 3YS ENGLAND
Telephone: [44] (0235) 550420 Fax: [44] (0235) 550485
(German Sales Office)
Genfer Strasse 6, Niedereschbach 60437 Frankfurt Main 50 GERMANY
Telephone: [49] (069) 507-1017 Fax: [49] (069) 507-2054
ABD MERCURY PTY. LTD.
32 Dew Street, Thebarton, South Australia 5031 AUSTRALIA
Telephone: [61] (08) 352-3033 Fax: [61] (08) 352-7409
ABD KOREA Limited
Seongmi Building 2/3F, 740-18 Panpo-1dong, Seocho-ku, Seoul, KOREA
Telephone: [82] (02) 517-4101 Fax: 182] (02) 546-4264
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