- Home
- Domestic appliances
- Small kitchen appliances
- Kitchen scales
- A&D Weighing
- FC-5000Si
- Instruction manual
advertisement
䈸
Counting Scale
FC-50K
i
FC-20K
i
FC-10K
i
FC-5000
i
FC-2000
i
FC-1000
i
FC-500
i
FC-5000S
i
FC-500S
i
WM+PD4000541B
This manual and Marks
All safety messages are identified by the following, “WARNING” or “CAUTION”, of ANSI
Z535.4 (American National Standard Institute: Product Safety Signs and Labels). The meanings are as follows:
WARNING
CAUTION
A potentially hazardous situation which, if not avoided, could result in death or serious injury.
A potentially hazardous situation which, if not avoided, may result in minor or moderate injury.
This is a hazard alert mark.
This mark informs you about the operation of the product.
The information mark of other operations.
Note This manual is subject to change without notice at any time to improve the product. No part of this manual may be photocopied, reproduced, or translated into another language without the prior written consent of the A&D Company.
Product specifications are subject to change without any obligation on the part of the manufacture.
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 this 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.)
Copyright 2003
Contents
1. INTRODUCTION ........................................................................................................... 3
1-1. Introduction.............................................................................................................................. 3
1-2. Unpacking ............................................................................................................................... 4
1-3.
Setting Up Your Scale ............................................................................................................. 5
1-4.
Standby and Operating Mode.................................................................................................. 7
1-5.
Simple Operation Mode........................................................................................................... 7
1-6.
kg or lb Weighing Units ........................................................................................................... 7
1-7.
Last Unit Weight Used Feature ............................................................................................... 8
3-1. Basic Operations ................................................................................................................... 10
3-2.
To Start Counting................................................................................................................... 12
3-5.
Unit Weight By ID Number .................................................................................................... 18
4-1.
Using the KEYBOARD TARE Key......................................................................................... 19
4-2. To Clear TARE....................................................................................................................... 20
5-1.
Store Unit Weight by ID Number ........................................................................................... 21
5-2.
Clearing A Stored Unit Weight ............................................................................................... 22
5-3.
Store Item Code by ID Number ............................................................................................. 23
5-4.
Unit Weight, Tare, Comparator Limits & Total Count Stored ........................................................... 25
6-1.
The M+ Memory Function ..................................................................................................... 26
6-2. Viewing the M+ Total ............................................................................................................. 27
6-4.
The M- Function .................................................................................................................... 27
9. CALIBRATION ............................................................................................................ 31
9-1.
Calibration Procedure Using a Weight .................................................................................. 31
10. F-FUNCTION PARAMETERS.................................................................................... 34
10-1.
To Change or View F-Function Settings............................................................................. 34
10-2. F-Functions ........................................................................................................................ 36
11-1.
ACAI Automatic Counting Accuracy Improvement ........................................................ 44
11-3.
ACAI Manual Operation ..................................................................................................... 45
12. RS-232C SERIAL INTERFACE ................................................................................. 46
12-2.
Data Output Mode.............................................................................................................. 47
12-3. Connecting the AD-8121 Printer / MODE 1 or MODE 2..................................................... 48
12-4.
Connecting the AD-8121 Printer / MODE 3........................................................................ 49
12-6.
12-7.
Using a Bar Code Reader.................................................................................................. 55
Using UFC (Universal Flex Coms) Function ...................................................................... 59
13. OPTIONS ................................................................................................................... 62
13-1.
OP-01 Bar Code Reader.................................................................................................... 62
13-2.
13-3.
OP-02 Ni-MH Battery Pack ................................................................................................ 65
OP-03 2 Ch. RS-232C ....................................................................................................... 67
13-4.
13-5.
OP-04 RS-232C and Comparator Relay Output ................................................................ 68
OP-05 Remote Scale Interface .......................................................................................... 69
14. SPECIFICATIONS ..................................................................................................... 73
14-1. Dimensions ........................................................................................................................ 75
15. GRAVITY ACCELERATION MAP.............................................................................. 76
16. INDEX ........................................................................................................................ 78
1. INTRODUCTION
1-1. Introduction
Thank you for your Purchase!
This manual describes the functions of your counting scale and how to get the most out of it. Read this manual carefully before use.
Features
The FC-
i
/ FC-S
i
counting scales have the following features:
The scales have the following high internal resolution for a wider range of counting applications.
FC-
i
counting scale: 1/1,000,000
FC-S
i
counting scale: Up to 1/10,000,000
There are the following ways to enter a unit weight (of the sample piece).
The way to weigh a fixed number of samples like 5 pieces, 10 pieces and so on.
The way to weigh the desired number of samples.
The way to store the desired unit weight directly using the 10-key pad.
The way to recall the stored unit weight from ID memory.
The way to send the desired unit weight from a personal computer.
The way to use a bar code reader to designate an ID number to enter the unit weight directly.
Three UNIT WEIGHT BY LED's will navigate you to store a unit weight easily.
ACAI (Automatic Counting Accuracy Improvement) supports counting by recalculating the unit weight when a sample is added. Therefore it is possible to reduce the counting error.
The scale has a large bright vacuum fluorescent display and can show information for piece count, weight, unit weight, ID number, item code and comparator result at the same time.
UP to 500 ID memories can store 6 digits ID numbers, consisting of 12 digit item code
(alphanumeric), unit weight, tare weight and comparator limits.
Comparator function:
Compare a count or weight
Comparator limits can be changed temporarily using the 10-key pad.
Comparator relay output is also available using an optional interface.
Accumulation function for counting.
Standard RS-232C interface and optional interfaces (up to 3 ch. RS-232C available) to communicate with a personal computer, printer and bar code reader expanding the counting application.
A two-scale counting system can be constructed using the optional a remote scale interface and remote platform.
It is possible to send the time and date to a computer connected to the RS-232C interface using the scale's built-in clock.
The optional rechargeable battery pack (Ni-MH) is useful for portable operation.
1-2. Unpacking
Unpack the scale carefully and keep the packing material if you are likely to transport the scale again in the future.
In the carton you should find this manual plus:
The counting scale.
An AC adapter (check that the AC input rating is correct).
Remove the protective packing materials from around the scale and between the pan and scale casing.
Remove Packing Material
FC-50K
i
FC-20K
i
FC-10K
i
FC-5000
i
FC-2000
i
Remove Packing Material
Instruction Manual
AC Adapter
Please confirm that the
AC adapter type is correct for your local voltage and receptacle type.
FC-1000
i
FC-500
i
How to assemble the breeze break
(Only for FC-500Si)
Assemble the breeze break as shown below. Follow the numbered sequence.
Breeze ring
Only for FC-5000S
i
FC-5000S
i
FC-500S
i
1-3. Setting Up Your Scale
1. Place the scale on a suitable weighing surface (Refer to
Best Conditions For
Weighing
of next page) and turn the adjustable feet until the spirit level shows that the scale is level.
AC adapter jack
RS-232C
Weighing pan
OP-02 slot
Spirit level
Earth terminal
Remote scale slot
Leveling foot
Calibration switch cover
OP-03/04 slot
2. Plug in the AC adapter. The AC input requirements could be l00, 120, 220, 230 or
240 Volts (50/60Hz) depending on where used, so, please check that the adapter is correct. Ground the scale to avoid a problem with the static electricity.
The display comes ON
After running through a self-check that will show various segments, the weighing display will appear.
1111111
ÆÆ ÆÆ self-check
9999999
ÆÆ
------waiting for weighing
ÆÆ data to become stable
ÆÆ
ACAI
SAMPLE
TOO LIGHT
STABL
ZERO
TOTAL
M+
SCALE
TARE
ENTERED
888888 0
SFV
: : ( , * + 7 N J
1213456789 0.000
$ 8 8 : J
12314567 0.00000
3. Please leave the scale with the AC adapter connected for at least thirty minutes before use. We call this situation "warm up".
If desired: press the STANDBY/OPERATE key to turn the display off.
Remember that the scale will always be warmed up as long as the AC adapter is connected. This keeps the scale always ready for use.
Best Conditions For Weighing
The scale must be level (check the spirit level on the scale).
Best operating temperature is between 20°C~25°C / 68°F~77°F at about 50%~60% relative humidity. There shouldn’t be large temperature fluctuations.
The weighing room should be kept clean and dry.
The weighing table must be of a solid construction.
Corners of rooms are best as they are less prone to vibrations.
Don’t install the scale near heaters or air conditioners.
Don’t install the scale in direct sunshine.
Try to ensure a stable AC power supply when using the AC adapter.
Keep equipment containing magnets away from the scale.
Warm up the scale before use or leave it on standby overnight.
Ground the scale chassis for electrostatic discharge if the weighing conditions warrant.
Calibration
Calibration of the scale is required when the scale is initially installed, or if a remote scale is added. Please refer to “
9
. CALIBRATION
” for more calibration information.
1-4. Standby and Operating Mode
The scale has two principal modes: Standby mode and operating mode.
Standby mode
: When the scale has power supplied to it, either by the AC Adapter or the battery pack, and the display shows a decimal point, the scale is in the standby mode. In day-to-day operation, standby mode is normal when the scale is not in use. This keeps the weighing mechanism warmed up.
Operating mode
: If the display is turned on from standby mode, then the scale is in operating mode.
If the scale is not going to be used for a long period of time, then it may be appropriate to disconnect the main power.
Use the STANDBY/OPERATE key to turn the display on or off.
When the scale is in
Standby mode, a period appears in the weight display as an
STANDBY
OPERAT indicator.
ACAI
SAMPLE
TOO LIGHT
STABLE ZERO
TOTAL M+
SCALE
TARE
ENTERED
888888
SFV
Standby Indicator
123456789012345678901234567
123456789012345678901234567
1-5.
Simple Operation Mode
If desired, the scale can be set in a simple operation mode. In this mode, only front panel keys that would be used in “
3-3. Unit Weight By Samples
” counting operations are active. All others will not operate. The following keys are active in the simple operation mode:
Keys that will operate in simple operation mode:
STANDBY
OPERAT
ZERO TARE
SAMPLE ENTER
0
Æ
9
RESET
1-6.
kg or lb Weighing Units
USA Version ONLY
The scale can weigh and register the unit weight in pounds or kilograms (it comes set to pounds "lb"). When you switch between the weighing units, the display will show the current weighing unit, and any weight amounts being used are also converted.
To change the weighing units between pounds and kilograms, refer to F-Function f-00-01
. Set at “
0
” for kg; or at “
1
” for lb.
ACAI
SAMPLE
TOO LIGHT
STABL
ZERO
TOTAL
M+
SCALE
TARE
ENTERED
888888 0
SFV
: : ( , * + 7 O E
1123456789 0.000
$ 8 8 : O E
12314567 0.00000
1-7. Last Unit Weight Used Feature
There are a number of ways to register a unit weight to count. The scale has a feature to keep the last unit weight used in memory. This can be handy if you turn the scale display off and then want to return to the same unit weight, or you accidentally clear the unit weight by pressing the RESET key.
When a unit weight is registered it is automatically placed in the ID “ id-000000
” and remains there until a new unit weight is entered, or the power is disconnected. It can be recalled by the following:
UNIT WEIGHT BY
1. When three UNIT WEIGHT BY LED’s are blinking at display ON, or if the RESET key has been pressed;
2. Press the ID key.
" id-000000
" will be displayed with Ñ
000000
Ò blinking.
ID.
STABL
ZERO
TOTAL
M+
SCALE
TARE
ENTERED
8888810
SFV
: : ( , * + 7 N J
1234561789 0.000
4578 id-000000
6 $ 0 8 8 : J
12345670.00000
3. Press the ENTER key.
The scale will recall the previous unit weight.
ENTER
-----0
SFV
: : ( , * + 7 N J
1234516--0.000
4568 id-000000
6 $ 0 $ 8 8 : J
12345617 12.0000
Automatic Last Unit Weight Used
When you turn the display on, the scale can automatically recall the last unit weight used from memory, if desired.
Set the F-Function f-01-04
at “
1
”. The scale will recall the last unit weight used, when the display is turned ON.
2. FRONT PANEL OVERVIEW
3. BASIC OPERATIONS
3-1. Basic Operations
Turn The Display ON and OFF
1. Press the STANDBY/OPERATE key to turn the scale on when displaying the standby indicator.
The display will show all the display segments first and show “
-------
” while the weighing data becomes stable.
STANDBY
OPERAT
STABL
ZERO
TOTAL
M+
SCALE
TARE
ENTERED
8888888
SFV
888888888888888888888888888
Standby indicator
888888888888888888888888888
2. The scale will automatically assume zero
(power-on zero) and the display will show zero.
The range for power-on zero is ±10% of the weighing capacity around the calibrated zero point.
If there is something more than 10% of the capacity on the weighing pan, the display will show “ err 1
”. Remove everything from the weighing pan or press the RESET key.
When you press the RESET key, the power-on zero doesn’t work.
.8888888
.-------
STABL
ZERO
TOTAL
M+ SCALE
TARE
ENTERED
888881 0
SFV
: : ( , * + 7 N J
1213456789 0.000
$ 6 $ 0 3 8 : J
12341567 0.00000
3. Press the STANDBY/OPERATE key again, and the scale returns to the standby mode.
ZERO
The ZERO key will bring the weight display back to zero as long as the weighing pan is empty or within 2% of capacity.
1. Remove everything from the weighing pan and press the ZERO key. Then the display shows “
-------
” and waits for the weighing data to become stable.
2. The scale will zero and the ZERO indicator will come on to indicate that the scale is ready to start weighing or counting.
There is an automatic zeroing function called
“zero tracking”. The scale initially comes with this function enabled to take care of normal zero drift caused by changes in temperature, humidity, air pressure etc. (F-Function f-04-01
).
STABL
ZERO
TOTAL
M+
SCALE
TARE
ENTERED
888881 0
SFV
: : ( , * + 7 N J
1234516789 0.000
6 $ 0 $ 3 8 : J
12341567 0.00000
4567890123456
7
TARE
The TARE key will subtract the displayed container weight.
1. Remove everything from the weighing pan and press the ZERO key to zero the scale.
2. Place a tare container on the weighing pan. The weight display will show the weight of the container.
STABL
ZERO
TOTAL
M+ SCALE
TARE
ENTERED
888881 0
SFV
: : ( , * + 7 N J
1213456789 0.000
$ 6 $ 0 3 8 : J
12341567 0.00000
4567890123456
7
STABL
ZERO
TOTAL
M+
SCALE
TARE
ENTERED
888881 0
SFV
: : ( , * + 7 N J
1231456789 0.650
6 $ 0 $ 3 8 : J
12345167 0.00000
Container weight display shows “
-------
” and waits for the weighing data to become stable.
4. The scale will subtract the weight of the container and the weight display changes to net weight.
TARE
The TARE ENTERED indicator will be displayed.
STABL
ZERO
TOTAL
M+
SCALE
TARE
ENTERED
888881 0
SFV
: : ( , * + 7 N J
1213456789 0.000
$ 6 $ 0 3 8 : J
12341567 0.00000
4567890123456
7
3-2. To Start Counting
1. Press the STANDBY/OPERATE key to turn the scale on when displaying the standby indicator. Or press the RESET key to clear any previous operations.
STABL
TARE
ENTERED
ZERO
TOTAL
M+
SCALE
2. Three LED’s on the UNIT WEIGHT BY keys will blink. This is to prompt you to select a method for entering a unit weight for operation.
888881 0
SFV
: : ( , * + 7 N J
1213456789 0.000
$ 6 $ 0 3 8 : J
12341567 0.00000
4567890123456
7
3.
S elect one of the ways to enter or recall the unit weight (the weight of one item of what you are counting), and refer to the section noted for more instructions.
UNIT WEIGHT BY
KEY-
BOARD
ID.
SAMPLE
By using a sample: Section “
3-3. Unit Weight By Samples
”
10 sample size
5, 25, 50 or 100 sample size
Desired sample size
Desired sample size not to use the
SAMPLE
key
By using the l0-key pad: Section
“33-4.Unit Weight By KEYBOARD
”
By stored lD number: Section“
3-5.Unit Weight By ID Number
”
You can return to this point at any time during operation by pressing the RESET key.
(This doesn’t clear the entered tare weight and M+ memory.)
RESET
3-3. Unit Weight By Samples
10 Sample Size
1. Three UNIT WEIGHT BY LED’s should be blinking at this point, if not, press the RESET key to clear any unit weight. lf you are going to use a tare container, place it on the weighing pan.
2. Press the SAMPLE key.
Any tare container will be automatically tared.
The display Will show
“
$GG6DPSOH
” and “10 pcs”.
SAMPLE
STABL
ZERO
TOTAL
M+ SCALE
TARE
ENTERED
88888 10
SFV
: : ( , * + 7 N J
1213456789 0.000
$ $ G G 6 D P S O H
123456789012345678901234567
If weight isn’t zero, press the TARE.
3. Place l0 sample pieces on the weighing pan (or in the tared container).
The weight of all 10 pieces will be displayed.
88888 10
SFV
: : ( , * + 7 N J
1234567 89 1.110
A
$ G G 6 D P S O H
123456789012345678901234567
Ñ
Blinking
Ò
4. Press the ENTER key.
The display will show “
-------
”
ENTER for a moment while calculating the unit weight. After a moment the display will show the count, total weight and unit weight.
.-------
SFV
: : ( , * + 7 N J
1123456 -------
A
$ G G 6 D P S O H
123456789012345678901234567
At this point the scale may decide that 10 pieces is not a large enough sample size for accurate counting. If you refer to the
“
$GG6DPSOH
“ display again, then add the additional number of sample pieces displayed.
88888 10
SFV
: : ( , * + 7 N J
1213456789 1.110
$ 6 $ 0 8 8 : J
12341567 111.000
You can ignore the “
$GG6DPSOH
” message and continue counting by pressing the ENTER key. However, the results may not be accurate.
Refer to F-Function f-01-02
.
Total Weight Unit Weight
The weight of all The calculated the sample pieces weight of a unit.
5. You may now begin counting operations for pieces of the same weight.
Please refer to “
11. ACAI FUNCTION
” for information concerning the ACAI counting accuracy function.
88888 10
SFV
: : ( , * + 7 N J
1213456789 0.005
A
$ G G 6 D P S O H
121345678901 24
Another 24 pieces.
5, 25, 50 or 100 Sample Size
1. Three UNIT WEIGHT BY LED’s should be blinking at this point, if not, press the RESET key to clear any unit weight. lf you are going to use a tare container, place it on the weighing pan.
STABL
TARE
ENTERED
2. Press the SAMPLE key.
Any tare container will be automatically tared.
The display will show
“
$GG6DPSOH
” and “10 pcs”.
SAMPLE
ZERO
TOTAL
M+
SCALE
88888 10
SFV
: : ( , * + 7 N J
1213456789 0.000
$ $ G G 6 D P S O H
123456789012345678901234567
If weight isn’t zero, press TARE.
Æ 10 Æ 5 Æ 25 Æ 50 Æ 100
3. Press the SAMPLE key to move through the count number of 5, 25, 50 or 100 pieces.
The larger the sample size used, the more accurate the unit weight will be registered. (Example of selecting a sample size of 50)
SAMPLE
88888 50
SFV
: : ( , * + 7 N J
1123456789 0.000
A
$ G G 6 D P S O H
123456789012345678901234567
4. Place the selected number of sample pieces on the weighing pan (or in the tared container).
The weight of the pieces will be displayed.
Ñ
Blinking
Ò
88888 50
SFV
: : ( , * + 7 N J
1123456789 0.000
A
$ G G 6 D P S O H
123456789012345678901234567
5. Press the ENTER key.
The display will show “
-------
” for a moment while calculating the unit weight. After a moment the display will show the count, total weight and unit weight.
ENTER
.-------
SFV
A
: ( , * + 7 N J
1213456 -------
A
$ G G 6 D P S O H
123456789012345678901234567
If the “
$GG6DPSOH
” display appears again, then the sample size is not large enough for accurate counting – add the additional number of sample pieces.
88888 50
SFV
: : ( , * + 7 N J
1123456789 5.550
A
6 $ 0 8 8 : J
12341567 111.000
6. You may now begin counting operations for pieces of the same weight.
Desired Sample Size
1. Three UNIT WEIGHT BY LED’s should be blinking at this point, if not, press the RESET key to clear any unit weight. lf you are going to use a tare container, place it on the weighing pan.
2. Press the SAMPLE key.
Any tare container will be automatically tared.
The display will show
“
$GG6DPSOH
” and “10 pcs”.
3. Use the 0 Æ 9 10-key pad to display the sample size desired.
If you hit the wrong key, press the C key to clear and start again. (Example of selecting a sample size of 20)
4. Place the selected number of sample pieces on the weighing pan (or in the tared container).
The weight of the pieces will be displayed.
SAMPLE
0
Æ
9
88888
: : ( , * + 7 N J
1123456789 0.000
A
$ G G 6 D P S O H
12345678901234567
If weight isn’t zero, press TARE .
/01
#$%
2345
&'( )*+
9:;<
,-.
%
20
SFV
: : ( , * + 7 N J
1123456789 0.000
A
$ G G 6 D P S O H
123456789012345678901234567
88888
10
20
SFV
SFV
: : ( , * + 7 N J
1123456789 2.220
A
$ G G 6 D P S O H
123456789012345678901234567
5. Press the ENTER key.
The display will show “
-------
” for a moment while calculating the unit weight.
After a moment the display will show the count, total weight and unit weight.
Ñ
Blinking
Ò
ENTER
.-------
SFV
: : ( , * + 7 N J
1213456 -------
A
$ G G 6 D P S O H
123456789012345678901234567
If the “
$GG6DPSOH
” display appears again, then the sample size is not large enough for accurate counting – add the additional number of sample pieces.
88888 20
: : ( , * + 7 N J
1213456789 2.220
$ 6 $ 0 8 8 : J
12314567 111.000
SFV
6. You may now begin counting operations for pieces of the same weight.
Desired Sample Size Not Using The
SAMPLE
Key
1. Three UNIT WEIGHT BY LED’s should be blinking at this point, if not, press the RESET key to clear any unit weight. lf you are going to use a tare container, place it on the weighing pan and press the TARE key.
Be sure the weight display is “
0
”.
STABL
TARE
ENTERED
TARE
ZERO
TOTAL
M+
SCALE
888881 0
SFV
: : ( , * + 7 N J
1213456789 0.000
$ 6 $ 0 3 8 : J
12341567 0.00000
4567890123456
7
If weight isn’t zero, press the TARE.
2. Place sample pieces on the weighing pan (or in the tared container).
The weight of the pieces will be displayed.
888882
: : ( , * + 7 N J
1123456789 2.220
A
$ G G 8 : J
12134567 0.00000
0
SFV
3. Use the 0 Æ 9 10-key pad to enter the sample size of the pieces you placed.
If you hit the wrong key, press the C key to clear and enter again. (Example of setting a sample size of 20)
0 Æ 9
4. Press the ENTER key.
The display will show dashes for a moment while calculating the unit weight. After a moment the display will show the count, total weight and unit weight.
Ñ
Blinking
Ò
ENTER
/01
#$%
2345
&'( )*+
9:;<
,-.
%
20
SFV
: : ( , * + 7 N J
1123456789 0.000
A
$ G G 6 D P S O H
123456789012345678901234567
.-------
SFV
: : ( , * + 7 N J
1213456 -------
A
$ G G 6 D P S O H
123456789012345678901234567
If the "Add Sample" displays again, then the sample size is not enough for accurate counting - add the additional number of sample pieces.
88888 20
SFV
: : ( , * + 7 N J
1123456789 2.220
$ 6 $ 0 8 8 : J
12345167 111.000
5. You may now begin counting operations for pieces of the same weight.
3-4. Unit Weight By KEYBOARD
1. Three UNIT WEIGHT BY LED’s should be blinking at this point, if not, press the RESET key to clear any unit weight. lf you are going to use a tare container, place it on the weighing pan and press the TARE key to tare the container.
STABL
TARE
ENTERED
2. Press the KEYBOARD key.
The unit weight display and the
ENTER key LED will blink.
KEY-
BOARD
ZERO
TOTAL
M+ SCALE
8888810
SFV
: : ( , * + 7 N J
1123456789 0.000
$ 6 $ 0 8 8 : J
1231456789012 0.
4567890123456
7
3. Use the 0
Æ
9 and
.
10-key pad to display the unit weight.
If you hit the wrong key, press the C key to clear and start again.
(Example of a unit weight 32g)
0 Æ 9
#$% &'( )*+
/01
2345
678 9:;<
,-.
%
8888850
SFV
: : ( , * + 7 N J
1213456789 0.000
$ 6 $ 0 8 8 : J
123415678901 32.
4567890123456
7
4. Press the ENTER key.
The unit weight 32g will have been entered.
ENTER
If the unit weight entered is too light, “ lo ut
”
(low unit weight) will be displayed, and you will be returned to step 3.
5. You may now begin counting operations for pieces of the same weight.
-----0
SFV
: : ( , * + 7 N J
1213456--0.000
$ 6 $ 0 8 8 : J
12341567 32.0000
------0
SFV
: : ( , * + 7 N J
123456-0-0.000
$ 6 $ 0 8 8 : J
12314567l lo ut
beep, beep
3-5. Unit Weight By ID Number
1. If there are no unit weight’s stored in memory, refer to “
5-1. Store Unit Weight by
ID Number
”.
Three UNIT WEIGHT BY LED’s should be blinking at this point, if not, press the
RESET key to clear any unit weight.
STABLE
TAR
ENTERED
ZERO TOTAL M+ SCALE
2.
Press the ID key.
" id-000000
" will be displayed with
Ñ
000000
Ò blinking.
If you have been using the unit weight by ID number, its ID number stays displayed and blinks.
ID.
8888810
SFV
: : ( , * + 7 N J
1234516789 0.000
4578 id-000000
6 $ 0 8 8 : J
12345670.00000
3. Use the 0 Æ 9 10-key pad to display the ID number.
If you hit the wrong key, press the
C key to clear and start again.
(Example of ID number "
123456
")
0 Æ 9
8888850
SFV
: : ( , * + 7 N J
1213456189 0.000
4578 id-123456
$ 6 $ $ 8 8 : J
123415610.00000
/01
#$%
2345
&'(
678
)*+
9:;<
,-.
%
4. Press the ENTER key.
The count display will show "
0
" and the scale will recall "12g" previously entered as the unit weight of ID 123456.
ENTER
-----0
SFV
: : ( , * + 7 N J
1234561--0.000
4568 id-123456
6 $ $ 0 8 8 : J
12345617 12.0000
If there is no unit weight entered for the ID number you tried to recall, “ no id
” will be displayed, and you will be returned to step 3.
------0
SFV
: : ( , * + 7 N J
1234561--0.000
4568id no id
6 $ 0 8 8 : J
1234567l0.0000
beep, beep
5. You may now begin counting operations for pieces of the same weight.
“ id-00000
” is a special memory area. It always holds the last
Unit Weight entered.
When you register a unit weight , it is automatically placed in the
ID “ id-00000
”.
If you clear the unit weight by pressing the RESET key, it can be recalled by recalling the ID “ id-00000
”.
4. ENTERING A TARE WEIGHT
There are two methods of tare operations.
Using the TARE key to subtract the displayed container weight directly. Please refer to “
3-1. Basic Operations
”.
Using the KEYBOARD TARE key to enter a tare weight via the 10-key pad.
4-1. Using the KEYBOARD TARE Key
1. Remove everything from the weighing pan and press the ZERO key to zero the scale.
STABL
TARE
ENTERED
ZERO
TOTAL
M+ SCALE
2. Press the KEYBOARD TARE key.
The weight display will blink
(display is any tare weight previously entered).
KEY-
BOARD
TARE
888881 0
SFV
$ : ( 7 $ 5 ( N J
1231456789 0.000
6 $ $ 0 8 8 : J
12345167 0.00000
4567890123456
7
3. Use the 0 Æ 9 and
.
10-key pad to display the desired TARE weight.
If you hit the wrong key, press the C key to clear and start again.
(Example of a tare weight 615g)
0 Æ 9
8888850
$ : ( 7 $ 5 ( N J
1231456789 0.615
6 $ $ 0 8 8 : J
12345167 0.00000
/01
#$%
2345
&'(
678
)*+
9:;<
,-.
%
SFV
4. Press the ENTER key.
The weight display changes to net weight.
The TARE ENTERED indicator will light.
ENTER
STABL
ZERO
TOTAL
M+
SCALE
TARE
ENTERED
888881 0
SFV
$ : ( , * + 7 N J
121345678 -0.615
$ 6 $ 0 3 8 : J
12341567 0.00000
4567890123456
7
4-2. To Clear TARE
Either:
1. Have nothing on the weighing pan.
If the ZERO indicator is not displayed, press the ZERO key to zero the scale.
2. Press the TARE key.
The weight display will go to “
0
”, and the TARE ENTERED indicator will be turned off (tare cleared).
TARE
Or:
1. Press the KEYBOARD TARE key.
The weight display will blink
(display is any tare weight previously entered).
KEY-
BOARD
TARE
STABL
ZERO
TOTAL
M+
SCALE
TARE
ENTERED
888 -554
SFV
$ $ : ( , * + 7 N J
1234105678 -0.615
6 $ D D 0 3 8 : J
123415167 1.11000
456789012345
67
STABL
ZERO
TOTAL
M+ SCALE
TARE
ENTERED
888-51 0
SFV
A
: ( , * + 7 N J
1213456789 0.000
6 $ $ 0 3 8 : J
12345617 1.11000
4567890123456
7
STABL
ZERO
TOTAL
M+
SCALE
TARE
ENTERED
888 -554
SFV
: $ ( 7 $ 5 ( N J
1234156789 0.615
6 $ $ 0 8 8 : J
12345617 1.11000
4567890123456
7
2. Press the 0 key and press the
ENTER key.
0
3. The tare weight is cleared and the TARE ENTERED indicator will be turned off.
ENTER
888 -554
SFV
$ : ( 7 $ 5 ( N J
12314567890.00
0
6 $ $ 0 8 8 : J
12345167 1.11000
Enter TARE weight ‘0’.
STABL
ZERO
TOTAL
M+
SCALE
TARE
ENTERED
888881 0
SFV
$ : ( , * + 7 N J
1234156780.000
6 $ $ 0 3 8 : J
12345617 1.11000
4567890123456
7
5. STORE UNIT WEIGHT
5-1. Store Unit Weight by ID Number
The scale can store up to 500 unit weights by 6 digit ID numbers, from 000001 to
999999. To recall, refer to “
3-5. Unit Weight By ID Number
”.
The scale is initially set to store the ID numbers with a unit weight and an item code only. However, it can be set to store a tare weight, comparator limits and total count by setting F-Function f-01-05
.
1. First register a unit weight by any method
– using a sample or via the 10-key pad – and have it displayed.
888-5 10
SFV
: : ( , * + 7 N J
1234516789 1.110
6 $ 0 $ 8 8 : J
12345671 111.000
2. Press the STORE UNIT WEIGHT key.
“ id-000000
” will appear with
Ñ
000000
Ò blinking.
If you have been using the unit weight by ID number, its ID number
STORE
UNIT
WEIGHT stays displayed and blinks.
88888 10
SFV
$ : ( , * + 7 N J
1230456789 1.110
4578 id-000000
6 $ 0 $ 8 8 : J
12345671 111.000
3. Use the 0
Æ
9 10-key pad to display the new ID number.
(Example of ID number “123456”)
If you hit the wrong key, press the
C key to clear and start again.
0 Æ 9
88888 10
SFV
: $ : ( , * + 7 N J
1234567189 1.110
4678 id-123456
6 $ $ 0 8 8 : J
12314567 111.000
4567890123456
7
#$% &'( )*+ ,-.
/01 2345 678 9:;<
%
4. Press the ENTER key.
The ID number is stored and the display returns to normal.
ENTER
----10
SFV
: D : ( , * + 7 N J
1234516--1.110
4578 id-123456
6 $ D 0 8 8 : J
12345617 111.000
If the same ID number was previously stored, the scale beeps twice and the ID number display blinks. Ñ id-123456
Ò
You must then select one of two options: either (a) Overwrite the old ID unit weight, or (b) Select a different ID number:
ENTER
Press the ENTER key to overwrite the old ID number.
OR
C
------0
SFV
: D : ( , * + 7 N J
1231456--1.110
4568 id-123456
6 $ D 0 8 8 : J
1234561l 111.000
beep, beep
Press the C key to clear and go to step 3.
5-2. Clearing A Stored Unit Weight
1. Press and hold the C key, then press the STORE UNIT WEIGHT key – release both.
C
+
STORE
UNIT
WEIGHT
2. “
&OHDU,'
” will appear and “ id-000000
” will appear with
Ñ
000000
Ò blinking.
3. Use the 0 Æ 9 10-key pad to display the
ID number to clear.
(Example of ID number “
123456
”)
If you hit the wrong key, press the
C key to clear and start again.
0 Æ 9
4. Press the ENTER key.
After showing “ id-------
” for a moment, the ID number will be cleared and the display returns to normal.
ENTER
If there is no such ID number to clear, the scale will beep. Return to step 3 to try again, or press the RESET key to exit.
Clearing All ID Memories at Once
1.In the step 2 above, press the TOTAL key.
“ id-all
” will appear with
Ñ all
Ò blinking.
TOTAL
888881 0
SFV
$ : ( , * + 7 N J
123145678C 0.000
4578 id-000000
6 $ 0 $ 8 8 : J & O H D U , '
12345167 0.00000
4567890123456
7
888881 0
SFV
$ : ( , * + 7 N J
123456178C 0.000
4578 id-123456
6 $ 0 $ 8 8 : J & O H D U , '
12345167 0.00000
4567890123456
7
#$% &'( )*+ ,-.
/01 2345 678 9:;<
%
-----1 0
SFV
$ : ( , * + 7 N J
1234516--0.000
$ 6 $ 0 8 8 : J
12341567 0.00000
888881 0
SFV
$ : ( , * + 7 N J
1234516780.000
4578 id-123456
6 $ 0 8 $ 8 : J & O H D U , '
12345167 0.00000
4567890123456
7
beep, beep
888881 0
SFV
$ : ( , * + 7 N J
123145678C 0.000
5678 id-all
6 $ 0 $ 8 8 : J & O H D U , ' $ O O
12345167 0.00000
2. Press the ENTER key, then Ñ all
Ò blinking will stop.
ENTER Ñ all
Ò
blinking stops
.
3. Press the ENTER key again to clear all of ID memories. Press the RESET to exit without clearing ID memories.
The display will return to normal.
ENTER
OR RESET
5-3. Store Item Code by ID Number
An item code of up to 12 alphanumeric characters can be set using the 10-key pad, and it will be stored with the ID number.
1. Press the STORE UNIT WEIGHT key. “ id-000000
” will appear with
Ñ
000000
Ò blinking.
STORE
UNIT
WEIGHT
88888 10
SFV
$ : ( , * + 7 N J
1234567189 1.110
4567 id-000000
6 $ 0 $ 8 8 : J
12345617 111.000
2. Enter the ID number desired using the 0
Æ
9 10-key pad.
0 Æ 9
88888 10
SFV
$ : ( , * + 7 N J
1234561789 1.110
4578 id-123456
6 $ 0 $ 8 8 : J
12345617 111.000
434567
#$% &'( )*+ ,-.
/01 2345 678 9:;<
%
3. Press the STORE UNIT WEIGHT key again.
The symbol “
$
” with blinking cursor
Ñ
_
Ò
will appear.
To return to step 2, press
STORE
UNIT
WEIGHT
88888 10
SFV
$ : ( , * + 7 N J D $
1234561789 1.110
4568 id-123456
6 $ 0 $ 8 8 : J $ B
12345617 111.000
45
To select the symbol “
$
”, “ press the M+ (A/a) key.
D
” or “ ”,
This shows which type of character will be entered.
$
: Capital letter
D
: Lowercase letter
: Numeric character
Cursor can be moved using
Æ
and
Å keys.
Example of entering “A&D Co., Ltd.”: Select the symbol “
$
” first.
4. Press the 2 (ABC) key to place “
$
”. “
$
”
$
5. Press the 0 (#) key several times to place “ ”. “
$
”
$
6. Press the 3 (DEF) key to place “
'
”. “
$
”
$ '
7. Press the TOTAL (
Æ
) key twice to shift the cursor. “
$
”
$ 'B
8. Press the 2 (ABC) key several times to place “
&
”. “
$
”
$ '&
9. Press the M+ (A/a) key to change the symbol “
$
” to “
D
”. “
D
”
$ '&B
10. Press the 6 (MNO) key several times to place “
R
”. “
D
”
$ '&R
Repeat these procedures to the last letter.
“
D
”
$ '&R/WG
11. Press the ENTER key.
The ID number is stored with
Item code and the display returns to normal.
ENTER
----10
SFV
$ : ( , * + 7 N J
123516-1-1.110
56 8 id-123456
6 $ $ 8 8 : J $ ' & R / W G
12341567 111.000
You may return to step 2 by pressing the STORE UNIT WEIGHT key.
If the same ID number was previously stored, the scale beeps twice.
You must then select one of two options: either (a) Overwrite the old ID unit weight, or
(b) Select a different ID number:
----10
SFV
$ : ( , * + 7 N J
123456--11.110
5678 id-123456
6 $ 0 8 8 : J $ ' & R / W G
1234567l 111.000
beep, beep
ENTER
Press the ENTER key to overwrite the old ID number.
OR
C
Press the C key to clear and retype the new
ID number.
Alphanumeric Character Table
Key
4
5
6
7
8
9
1
2
3
.
0
C
Capital Letters Lowercase Letters Numeric Characters
#>@AB
$%& DEF
'()
*+,
-./
012
3456
GHI
JKL
MNO
PQR
STUV
789 WXY
:;<= Z[\]
!"
Clear (Space)
STORE UNIT WEIGHT : ID number input
ÅÆ
Item code input
Å
: To shift the cursor left
TOTAL Æ
M+ A/a :
: To shift the cursor right
Capital
Æ
Lowercase
Æ
Numeric
Æ
Capital
Æ
…
5-4. Unit Weight, Tare, Comparator Limits & Total Count
Stored
The scale is initially set to store the ID numbers with a unit weight and an item code only. However, it can be set to store a tare weight, comparator limits and/or total count also by setting F-Function f-01-05
.
1. First register a unit weight and a tare weight by any method. If necessary, set the comparator limits and use the M+ accumulation.
2. Go to step 2 of section “
5-1. Store Unit
Weight By ID Numbers
”.
888-51 0
SFV
$ : ( , * + 7 N J
1234561789 0.000
4678 id-123456
6 $ 0 $ 8 8 : J $ % & ' ( ) * + , - . /
12345617 111.000
When you recall a unit weight by the ID key, the tare, comparator limits and/or total count are also recalled along with the unit weight.
“ id-00000
”, the special memory area, does not store a tare weight, comparator limits and total count along with unit weight.
6. USING THE M+ MEMORY
6-1. The M+ Memory Function
The scale can accumulate count data by pressing the M+ key, or automatically
(refer to the next page). It also keeps track of the number of times you add to the total.
When you view the total by pressing the TOTAL key, you view the number of pieces accumulated and the number of additions (how many times the total was added to). Please refer to “
6-2.
” and “
6-3.
” to view or clear the total count.
Adding Using the M+ Key
When stable count data is displayed:
1. Press the M+ key.
The
M+
indicator will blink for a few seconds.
STABLE
888123
SFV
$ : ( , * + 7 N J
123456178 13.655
4
6 $ $ 0 8 8 : J
12345617 111.000
If the scale beeps 4 times, or the
M+
indicator did not blink, then refer to the note below.
M+
The
M+
indicator will stay ON while there is count in memory.
M+
A/a
123
2. Press the M+ key every time you want to add to the count. Remember that you may only add the count data once – the scale must return to near zero before it will let you add again.
L
The M+ key is accepted only once for every stable count data.
Once accepted, the M+ key is prohibited until the display returns to less than +5d (1d = 1 weighing division).
If f-03-02
is set at “1”, then the M+ key can accumulate negative data. Once the M+ key is accepted, weight data must return within ±5d before the next accumulation.
To store the total count in the ID number, refer to “
5-4
. Unit
Weight, Tare, Comparator Limits & Total Count Stored
”.
The total count is not stored in the ID memories automatically even if it was recalled by ID number.
To Erase the Last M+ Addition
1. Press and hold the C key, then press the M+ key – release.
C
+
M+
A/a
2. The scale will clear the last
M+
addition.
If the scale beeps 4 times, there is no
M+
addition to erase.
Automatic M+ Accumulation Mode
M+
Accumulation can also be done automatically each time you count a different batch, As soon as you have a stable count, it will be added to the
M+
memory and the scale will beep
. The weight display will have to return to near zero before another count can be added.
Automatic
M+
accumulation is set by F-Function f-03-01
at “
1
”.
Only positive counts can be added. If F-Function f-03-02
is set at “
1
” (to accept negative count data), it will be ignored.
Once there is an automatic
M+
accumulation, the display must return to less than
+5d before another count can be accumulated.
6-2. Viewing the M+ Total
1. Press the TOTAL key.
The count display will show the total count and the TOTAL indicator will come ON.
The number of additions to the
M+
memory is also shown.
2. Press the TOTAL key again.
The display will return to normal.
TOTAL
TOTAL
Count
TOTAL indicator comes ON.
STABL
ZERO
TOTAL
M+
SCALE
TARE
ENTERED
8888 678
SFV
$ : ( , * + 7 N J
1234567180.000
6 $ $ 0 7 R W D O 1
1234516711100 7
Number of additions to
M+
memory
6-3. Clearing the M+ Total
1. Press and hold the C key, then press the TOTAL key – release both.
C
+
TOTAL
2. The scale will clear the
M+
memory, and the TOTAL indicator and the
M+
indicator will go OFF.
The RESET key does not clear the total data.
The total data is held in memory, but if AC/Battery power to scale is interrupted, the total data will be lost.
6-4. The M- Function
The scale can subtract count data from
M+
memory by using the key.
Set the F-Function f-09-01
="
1
" to use the key as M- key.
This function is not to clear the last
M+
addition, but to subtract count data instead of addition. The number of additions is increased.
There is no automatic
M-
function.
7. COMPARATOR FUNCTION
The scale contains a comparator function that checks the amount on the weighing pan against set acceptable count or weight levels. When the comparator function is activated, “
+,
”, “
2.
” or “ /2 ” is displayed.
Before the comparator will work, upper and lower limits must be set (refer to below). The
888100
SFV
$ $ : ( , * + 7 N J $ % ' ( + 2 .
/ 2 D D
1213415678 11.100
578id-123456
$ 6 $ $ 0 8 8 : J % & ' ( ) * + , - . /
123451167 111.000
levels are set by count or weight. So, if you are using weight for your comparator levels, calculate the weight before starting the procedure below.
beep, beep …
Upper limit 102 pcs
Lower limit 98 pcs
The beeper is set ON at
If OP-04 is installed, comparator relay output is also available.
The comparator responds as follows,
“
+,
” Upper limits < Count / Weight data
“
*2
” Lower d
Count / Weight data d limits
“
/2
” Count / Weight data < Lower limits
To Set the Comparator
Start with the scale in standby mode, display OFF.
1. Press and hold the ZERO key, then press the STANDBY/OPERATE key – release both.
ZERO
+
STANDBY
OPERAT
The count display will show “ f-00
” with “
00
” blinking.
2. Press the 5 key to enter into the
F-Function f-05-
X Comparator
.
5
3. Press the ENTER key.
.f-00 0
SFV
6 H W ) X Q F W L R Q 1 R
12345678C000045678id-000000
6 $ 0 8 8 : J & O H D U , '
12345670.0000045678901234567
.f-05 -00
SFV
& R P S D U D W R U
12345678C000045678id-000000
6 $ 0 8 8 : J & O H D U , '
12345670.0000045678901234567
.f-05-01
SFV
& R P S D U D W R U
12345678C000045678 d 00000 0
The count display will show the
F-Function and its present setting will blink.
4. Use the 0 Æ 6 keys to display the number of the desired setting.
For example, let’s select “
1
” compare all data.
.f-05-01
SFV
& R P S D U D W R U
12345678C000045678id-00000 1
6 $ 0 8 8 : J & O H D U , '
12345670.0000045678901234567
#$% &'(
/01
2345
678
)*+
9:;<
,-.
%
5. Press the ENTER key to save the setting and move to next F-Function, f-05-02
.
6. Continue to enter f-05 comparator settings – refer to
“
10-2. F-Functions
” for a listing.
If there are no changes to a
F-Function, press the ENTER key to move to the next.
ENTER
7. When finished: press the STANDBY/OPERATE key to exit. Then, press it to turn the display back ON.
Comparator functions will now operate as set.
.f-05-02
SFV
& R P S D U D W R U
12345678C000045678id-00000 0
6 $ 0 8 8 : J & O H D U , '
12345670.0000045678901234567
ENTER
To ENTER or
MOVE to next
Viewing Comparator Limits
The comparator limits you are using will be shown by pressing the
Set f-09-01
="
0
" to use this mode.
1. Press the key, then upper key.
888100
SFV and lower limits will be shown.
2. Press the key twice, the
$ $ : ( , * + 7 N J $ % ' ( + L / L P L W
1213415678 11.100
578id-123 102
$ 6 $ $ 0 8 8 : J % & ' / R / L P L W
123451167 111.000
1234567890 98 display will return to normal.
Upper limit Lower limit
Changing Comparator Limits Temporarily
Set f-09-01
="
0
" to use this mode.
1. In step 1 above, press the ENTER key, the upper limit value will blink.
2. Change the upper limit using the 10-key pad and press the
ENTER key. The upper limit will stop blinking and the lower limit blinks.
ENTER
888100
SFV
$ $ : ( , * + 7 N J $ % ' ( + L / L P L W
1213415678 11.100
578id-123 102
$ 6 $ $ 0 8 8 : J % & ' / R / L P L W
123451167 111.000
1234567890 98
3. Change the lower limit using the 10-key pad and press the ENTER key. Then the display will return to normal with the new limits.
888100
SFV
$ $ : ( , * + 7 N J $ % ' ( + L / L P L W
1213415678 11.100
578id-123 105
$ 6 $ $ 0 8 8 : J % & ' / R / L P L W
These temporary limits will disappear when the display is turned off.
8. TIME AND DATE FUNCTION
The scale has a time and date function and that data can be sent through the
RS-232C interface. There are two ways to set time and date.
To Set in the F-Function Settings
Start with the scale in standby mode, with the display is turned off.
1. Press and hold the ZERO key, then press the STANDBY/OPERATE key
– release both to enter the F-Function setting mode.
The count display will show “ f-00
” with “
00
” blinking.
2. Key in 1 1 and press the ENTER key to display the setting value, time and date.
If you want to change the order of year, month and date, use the 0
Æ
2 to change the setting.
.f-11-01
SFV
& R P S D U D W R U
12345678901234567890123456 1
6 $ 0 8 8 : 0 $ $ ' $ $ $ $ < $ $ K $ $ P $ $ V
12345670.0
2 0 12 0 2003 0 12 0 34 0 56
3. Press the C . The first digit of time and date will blink.
Use the 10-key pad to set the time and date.
The "seconds" value” is fixed to “
00
”.
C
/01
#$%
2345
&'(
678
)*+
9:;<
,-.
.f-11-01
SFV
%
& R P S D U D W R U
12345678901234567890123456 1
6 $ 0 8 8 : 0 $ $ ' $ $ $ $ < $ $ K $ $ P $ $ V
12345670.0
2 0 12 0 2003 0 12 0 34 0 00
4. Press the ENTER key to return to the step 2 and the clock will start from “
00
” seconds.
5. Press the STANDBY/OPERATE key to exit, and press it again to turn the display back ON.
The second display is fixed to
Using the Key to Set the Time and Date
Set the F-Function f-09-01
="
0
" to use the key as this function.
1. Press the key twice to display the time and date.
2. Press the ENTER key, then the first digit of date will blink.
ENTER
888100
SFV
$ $ : ( , * + 7 N J $ % ' ( < 0 '
1213415678 11.100
57 2003 2 12
$ 6 $ $ 0 8 8 : J % & ' K P V
123451167 111.000
1234 12 34 56
#$% &'( )*+ ,-.
/01
2345
678 9:;<
%
ENTER
3. Use the 10-key pad to set the date and press the
ENTER key. Then the first digit of time will blink.
The “seconds” value is fixed to “
00
”.
888100
SFV
$ $ : ( , * + 7 N J $ % ' ( < 0 '
1213415678 11 100 57 2003 2 12
4. Use the 10-key pad to set the time and press the ENTER key to return to normal. The clock will start from “
00
” seconds.
9. CALIBRATION
Calibration of the scale is required when it is initially installed, if it is moved often, or it is moved a substantial distance. Calibration is also necessary in regular scale maintenance due to normal mechanical wear-and-tear, changes in seasonal temperature, humidity, air pressure, etc.
The scale is equipped with gravity compensation, which allows it to be calibrated in one location and then adjusted to match the gravity acceleration at another location where it will be used. But don’t worry about this, as far as you calibrate the scale using a calibration weight and use it at same place.
The scale must perform "warm up" (with the AC adapter connected) for at least 30 minutes before starting calibration.
9-1. Calibration Procedure Using a Weight
The scale should have power connected at least one-half hour to warm it up before starting the calibration procedure.
Calibration switch cover
1. Remove the calibration switch cover, and press the calibration (CAL) switch.
The scale shows “
Cal
” in the count display.
88 Cal 10
SFV
> = ( 5 2 @ & D O L E U D W L R Q
1234567890123
> 7 $ 5 ( @ * U D Y L W \ $ F F H O H U D W L R Q
1234567890123
Calibration (CAL) switch
Press the CAL switch to exit without calibrating the scale.
2. Press the ZERO key to enter into zero & span calibration mode.
The display flashes the required calibration weight value.
88 Cal 10
SFV
& D O L E U D W L R Q Z H L J K W N J
Cal4567890123aaaaaaaaa 10.000
> 7 $ 5 ( @ * U D Y L W \ $ F F H O H U D W L R Q
If you know the exact weight value, or if you wish to use a different weight, use the 0
Æ
9 and
.
10-key pad to
88 Cal 10
SFV
& D O L E U D W L R Q Z H L J K W N J
Cal4567890123aaaaaaaaa 10 002
display the desired calibration weight.
(For example: Using 10kg calibration weight that actually weighs 10.002kg.)
3. Press the ENTER key.
The calibration weight stops blinking and “
Cal 0
” appears.
ENTER
8 Cal l 0 0
SFV
& D O L E U D W L R Q = H U R
Cala0
& D O L E U D W L R Q Z H L J K W N J
1234567890123456789012 10.000
4. Making sure that there is nothing on, or touching the weighing pan, press the ENTER key.
When zero calibration is completed, the display will show “
Cal f
”.
& D O L E U D W L R Q = H U R
Cala0
& D O L E U D W L R Q Z H L J K W N J
1234567890123456789 --------
If you don’t need span calibration, press the
CAL switch to exit from the calibration procedure.
8 Cal l f 0
SFV
& D O L E U D W L R Q 6 S D Q
Calaf
& D O L E U D W L R Q Z H L J K W N J
1234567890123456789012 10.000
5. Place the calibration weight on the weighing pan and press the ENTER key.
When span calibration is completed, the display will show “
&DOLEUDWLRQ(QG
”.
& D O L E U D W L R Q 6 S D Q
Calaf
& D O L E U D W L R Q Z H L J K W N J
1234567890123456789 --------
If the calibration weight is not what it should be, an error will be displayed. Check if the weight is correct and try again.
& D O L E U D W L R Q 6 S D Q
Calaf
& D O L E U D W L R Q Z H L J K W N J
1234567890123456789 err
88 Cal 10
SFV
& D O L E U D W L R Q ( Q G
Cal a
& D O L E U D W L R Q Z H L J K W N J
123456789012345678901210.000
6. Press the CAL switch and re-attach the calibration switch cover.
(End of the calibration procedure.)
If the scale will be moved to another place, set the gravity acceleration value before calibration. The value must be of the area where the calibration is to be done.
9-2. Gravity Compensation
When the scale is first used or has been moved to different place, it should be calibrated using a calibration weight.
But if the calibration weight cannot be prepared, the gravity acceleration correction will compensate the scale. Change the gravity acceleration value of the scale to the value of the area where it will be used. Refer to the gravity acceleration map appended to the end of this manual.
1. In step 1 of the previous procedure, press the TARE key.
The display flashes the gravity acceleration value stored in the scale.
88 Cal 10
SFV
* U D Y L W \ $ F F H O H U D W L R Q
Cal45678 g 0123aaaaaaaaaa 9.798
0 H P R U \ * U D Y L W \ $ F F H O H U D W L R Q
1234567890123
2. Use the 0
Æ
9 and
.
10-key pad to display the desired gravity acceleration value.
(Example of the value 9.800 m/s
2
.)
88 Cal 10
SFV
* U D Y L W \ $ F F H O H U D W L R Q
Cal45678 g 0123aaaaaaaaa1 9.800
> 7 $ 5 ( @ * U D Y L W \ $ F F H O H U D W L R Q
1234567890123
#$% &'( )*+ ,-.
/01 2345 678 9:;<
%
3. Press the ENTER key.
The scale will store the new value.
If necessary to calibrate the scale using a weight, go to step 2 of the previous section.
ENTER
88 Cal 10
SFV
> = ( 5 2 @ & D O L E U D W L R Q
1234567890123
> 7 $ 5 ( @ * U D Y L W \ $ F F H O H U D W L R Q
1234567890123
4. Press the CAL switch and re-attach the calibration switch cover.
(End of the calibration procedure.)
10. F-FUNCTION PARAMETERS
10-1. To Change or View F-Function Settings
Start with the scale in standby mode, with the display is turned off.
1. Press and hold the ZERO key, then press the STANDBY/OPERATE key.
ZERO
+
STANDBY
OPERAT
The count display will show “ f-00
” with
“
00
” blinking. Then release the both keys.
.f-00 0
SFV
6 H W ) X Q W L R Q 1 R
12345678C000045678id-000000
6 $ 0 8 8 : J & O H D U , '
12345670.0000045678901234567
2. Press the 0
Æ
9 keys to display the number of the F-Function.
For example: the 5 key to enter into the f-05-
X Comparator
.
3. Press the ENTER key.
The count display will show the F-Function and its present setting will blink.
4. You may now either change the setting (step 5) or move to the next F-Function (step 6).
.f-05 -00
SFV
& R P S D U D W R U
12345678C000045678id-000000
6 $ 0 8 8 : J & O H D U , '
12345670.0000045678901234567
/01
#$%
2345
&'(
678
)*+
9:;<
,-.
%
.f-05-01
SFV
& R P S D U D W R U
12345678C000045678id-00000 0
6 $ 0 8 8 : J & O H D U , '
12345670.0000045678901234567
5. Use the 0
Æ
9 keys to change the setting.
The C key clears the input setting if you press the wrong key and want to re-enter.
If you make a mistake and want to escape without saving any changes made after the last time the ENTER key was pressed – press the STANDBY/OPERATE key to exit.
After the ENTER key is pressed, the data is entered.
.f-05-01
SFV
& R P S D U D W R U
12345678C000045678id-00000 1
6 $ 0 8 8 : J & O H D U , '
12345670.0000045678901234567
/01
#$%
2345
&'(
678
)*+
9:;<
,-.
%
6. Press the ENTER key to save any changes and/or move to the next item.
ENTER
.f-05-02
SFV
& R P S D U D W R U
12345678C000045678id-00000 0
6 $ 0 8 8 : J & O H D U , '
12345670.0000045678901234567
7. When finished: Press the STANDBY/OPERATE key to exit. Then, press it to turn the display back on. The new settings will operate as set.
STANDBY
OPERAT
10-2. F-Functions
“ ” designates factory settings.
F-00-X Weighing Unit
USA Version ONLY
f-00-01
Weight Display.
0 kg (kilograms, FC-
i
series), g (grams, FC-S
i
series)
1 lb (pounds). f-00-02
Unit Weight (when “lb” is selected).
0 lb as piece weight.
1 lb as 1,000 piece weight.
F-01-X Operations
f-01-01
Operation Mode.
0
Normal operation. All features and keys available.
1
Simplified operation. The unit weight registration is by sample only. All other keys are disabled. f-01-02 f-01-03
F-01-03 requires
OP-05 and a remote scale
“Add” Sample Request Override.
If the sample weight is too light and the scale asks to “Add” more sample pieces, using this F-Function, the unit weight can be entered without adding the requested sample pieces.
0
Or disable the “Add” sample request function.
“Add” sample request function is disabled. Light unit weight
1 can be accepted without “Add” more sample request.
The unit weight can be entered without requested “Add” sample pieces (via the ENTER key).
2
The unit weight cannot be entered without requested “Add” sample pieces (via the ENTER key).
Auto REMOTE SCALE After Unit Weight Registration.
The scale can be set to the remote scale after the unit weight registration, instead of having to manually press the
REMOTE SCALE key. Please note that this does not affect any other use of the REMOTE SCALE key.
0
No automatic switching.
1
Automatic switching to the remote scale.
2
Automatic switching to the main scale.
f-01-04
Display ON Unit Weight – Reset or Last.
When the display is turned on, the scale can be set to recall the last unit weight used.
0
The unit weight is RESET (cleared) when display comes on.
1
The unit weight last used (before display is turned off, not power interrupt) will be entered automatically. f-01-05
ID Memory Contents.
The scale ID memory can contain unit weights with tare weights, comparator limits and total count, or just unit weights alone. Item codes are always contained.
000
ID memory contains the unit weight and item code only.
TOTAL TARE
count Weight
000
Comparator
limits
You select which data to be stored by keying in a
0 or 1 for the data: tare weight, comparator limits or total count.
Example:
Key in 0 1 0 to display
010
, ID memory contains the unit weight including item code and comparator limits.
f-01-06
F-01-06 requires
OP-05 and a remote scale
Unit Weight With A 2 Scale System.
When operating a 2 scale system, the remote scale may have an independent unit weight, or restricted to the same as the main scale.
0
Each scale can have its own unit weight.
1
Main and remote scales have the same unit weight only.
F-02-X ACAI Operation & Min. Unit Weight
f-02-01
ACAI Mode When Unit Weight Entered by
Sample Pieces
.
0
ACAI is disabled.
1
ACAI automatic operation.
2
ACAI manual mode (using the ENTER key).
f-02-02
ACAI Mode When Unit Weight Entered by
Keyboard or ID
0
ACAI is disabled.
1
ACAI manual mode (using the ENTER key). This setting works when f-02-01
setting is not “
0
”.
2
ACAI automatic obeys f-02-01
setting. f-02-03
Minimum Unit Weight.
(1d=1 weighing display division)
The factory setting may be different for some countries.
0
1/5 d (FC-
i
series), 1/20 d (FC-S
i
series)
1
1/100 d (FC-
i
series), 1/400 d (FC-S
i
series)
F-03-X M+ Accumulation Function
f-03-01
M+ Accumulation – Automatic or Manual
0
Manual accumulation (by pressing the M+ key).
1
Automatic accumulation (Positive data only). f-03-02
+ or – Count Data Acceptable.
(Manual Accumulation)
0
Positive data only (5d and above).
1
Positive and negative data (5d and above or –5d or below).
+5d
+5d
+
0
-
+
0
-
M+
Not Accepted f-03-02
=
0
-5d
M+
Not Accepted f-03-02
=
1
F-04-X Environment and Beeper
f-04-01
Zero Tracking.
Zero tracking traces a drift from zero caused by temperature changes etc., and stabilizes the zero point.
0
Zero tracking ON.
1
Zero tracking OFF. f-04-02
Response
0
Fast / sensitive
1
Normal
2
Slow / stable f-04-03
Stable Detection Speed / Environment
0
Fast stable detection (good environment).
1
Normal.
2
Slow stable detection (poor environment). f-04-04
Beeper for key operation
0
Beeper ON.
1
Beeper OFF.
F-05-X Comparator
f-05-01
Comparator Mode.
0 comparator off.
1 compare all data.
2 compare stable data.
3 compare all data except when near zero*.
4 compare stable data except when near zero*.
5 compare all positive data except when near zero*
6 compare stable positive data except when near zero*.
* “near zero” means between –4d and +4d of weight data. f-05-02
Data to Compare – Count or Weight
0
Compare count data.
1
Compare weight data.
f-05-03
Upper Limit.
0
Enter via the 10-key pad.
Use the or
.
key to “set minus value. f-05-04
Lower Limit.
0
Enter via the 10-key pad.
Use the or
.
key to set minus value. f-05-05
A Beeper With Comparator Results.
These are beeps for the comparator, not for the key operation.
000
All Comparator Beepers are OFF.
000
Example:
010
HI LO
OK
0
= Beeper OFF
1
= Beeper ON
The OK beep sounds – HI & LO doesn't sound. The scale will beep continuously when display meets OK condition.
f-05-06
Factory Use.
0
This setting should be “
0
”.
F-06-X/F-07-X/F-08-X Data Output
f-06-
X for standard RS-232C, f-07-
X for Ch.1 (PORT 1) and f-08-
X for Ch.2 (PORT 2). f-
06
X -01
Data Out Mode
0
1
2
Key mode: Data is sent by pressing the PRINT key.
+ command mode.
Stream mode: Data is sent continuously. command mode cannot be used.
Auto-print mode A: Data is sent if the weight display is stable at +5d (weighing display division) and above.
+ command mode.
3
Auto-print mode B: Data is sent if the weight display is stable, at ±5d (weighing display division) and above/below.
+ command mode
4
Command mode only.
5
To use as Bar Code Reader Interface.
6
UFC format with Key Mode (see setting “
0
”).
7
UFC format with Auto-Print Mode A (see setting “
2
”).
8
UFC format with Auto-Print Mode B (see setting “
3
”).
f-
06
X -02
Data to be Sent.
00100
Count data sent.
Date/Time Unit
ID Weight
00000
Weight
PCS(count)
You select which data to be sent by keying in a
0 or 1 for the data: Date, ID no., PCS
(count), weight or unit weight.
Example:
Key in 0 1 1 0 0 to display
01100
, this setting would send only the ID number and the count. f-
06
X -03 f-
06
X
-04 f-
06
X
-05
Data Format
0
Format for AD-8121 MODE 1.
1
Format for AD-8121 MODE 3.
No difference between “
0
” and ”
1
” when used with the
UFC format.
2
Format for general apparatuses, computers, etc.
Baud Rate
0
2400 bps.
1
4800 bps.
2
9600 bps.
Data Length and Parity
0
7 bits, even parity.
1
7 bits, odd parity.
2
8 bits, non parity.
F-09-X key
f-09-01
Operation mode for th e
0
1
key
Operating as a MODE key to display comparator upper and lower limits, and time and date.
Operating as M- key to subtract Count data from M+ memory.
f-09-02
Decimal Point and Weight Data for RS-232C Output
0
Decimal point="
.
"
1
Stable weight data format ="ST,+001.23456 kg"
Decimal point = “
,
”
2
3
Stable weight data format = “ST,+001,2346 kg”
Decimal point = “
.
”
Stable weight data format = “WT,+001.2346 kg”
Decimal point = “
,
”
Stable weight data format = “WT,+001,2346 kg”
F-10-X External Control Signal Input
f-10-01 f-10-02
Control Signal Input #1 and #2.
Select an input (key function) as listed below for each
Functions f-10-01
and f-10-02
.
Prepare a 3.5mm stereo jack plug and
#1 #2 #2 #1 connect one or two switches to this.
COMMON
0
Reset RESET . (Factory Setting for f-10-01
)
1
Enter ENTER . (Factory Setting for f-10-02
)
2
Tare TARE .
3
Zero ZERO .
4
Sample SAMPLE .
5
Remote Scale REMOTE SCALE .
6
Total TOTAL .
7
M+ M+ .
8
Standby / Operate STANDBY/OPERATE .
9
Print PRINT .
F-11-X Time & Date
f-11-01
Time and Date Display.
Select the order of date display.
0
Year-Month-Date.
1
Month-Date-Year.
2
Date-Month-Year.
11. ACAI FUNCTION
11-1.
ACAI
Automatic Counting Accuracy Improvement
STABL
TARE
ENTERED
The ACAI
TM
(Automatic Counting Accuracy
Improvement) function recalculates the unit weight as more pieces are added to improve count accuracy.
When the scale calculates the unit weight from sample pieces, the more sample pieces that are used, the higher the accuracy.
ACAI
SAMPLE
TOO LIGHT
ZERO
TOTAL
M+
88888
$ $ : ( , * + 7 N J
1213456789 3.108
$ 8 8 : J
12314567 111.000
28
SCALE
SFV
ACAI Notes
You must do the ACAI procedure just after you set the unit weight. The samples must be still on the weighing pan.
Do not take the samples off until the end of the ACAI procedure.
You don’t have to count out the pieces when you add, just stay within the ACAI range.
Continue the ACAI procedure to reach the largest amount that you will be counting.
If you want the most precise counting results for every different batch of the same items, use ACAI every time you start counting the next batch.
The ACAI does not work when you use a remote scale if the unit weight was set on the main scale and vice versa.
The ACAI function is initially set to manual operation when the unit weight is set digitally by the keyboard, by ID memory or using computer via the serial interface. This can be set to the automatic mode. The ACAI mode when the unit weight is entered by ID or digital input is controlled by F-Function f-02-02
. It is initially set at “
0
”, ACAI manual operation mode. Set to “
1
” for automatic operation mode.
11-2.
ACAI Automatic Operation
1. To start ACAI automatic operation, the unit weight must be registered and the samples still on the weighing pan.
2. Add pieces within the nearest
ACAI range (refer to table below). A good rule of thumb is to roughly double the amount on the weighing pan.
88888 10
SFV
A
: ( , * + 7 N J
1213456789 1.110
$ 6 $ 0 8 8 : J
12341567 111.000
ACAI
88888 21
SFV
A
: ( , * + 7 N J
1213456789 2.331
$ 6 $ 0 8 8 : J
12341567 111.000
Pcs On the ACAI
Weighing Pan Addition Range
10 13~27
20 23~50
30
40
50
33~71
43~90
53~107
STABLE STABLE
60
70
80
90
100 over 200
63~123
73~139
83~153
93~167
103~300
203~493
STABLE
ACAI ACAI
ACAI
As you add, the ACAI indicator will be ON as long as you are in range.
When you stop adding and the display becomes STABLE, the
ACAI indicator will blink.
After the new unit weight is calculated, the indicator will disappear,
3. Continue adding pieces within the ACAI range until you have reached a sample size as large as the largest number of pieces that you will be counting.
When you have added the maximum number of pieces required, remove the sample pieces and start your counting job.
11-3. ACAI Manual Operation
The ACAI procedure can also be controlled manually. The ACAI will not recalculate the unit weight until the ENTER key is pressed (as long as it is at the proper time and the guidelines in the ACAI notes have been followed).
The ACAI manual mode is controlled by F-Function f-02-01
, set at “
2
”.
To start ACAI manual operation, the unit weight must be registered and the samples still on the weighing pan.
1. Add pieces within the nearest ACAI range
(refer to table in the previous section). The
ACAI indicator will stay ON as long as you are within the ACAI range.
ACAI
88888 21
SFV
A
: ( , * + 7 N J
1213456789 2.331
$ 6 $ 0 8 8 : J
12341567 111.000
2. Wait until the display becomes stable and press the ENTER key.
When the new unit weight is calculated, the indicator will blink for a moment and disappear.
3. Continue adding pieces within the ACAI range until you have reached a sample size as large as the largest number of pieces that you will be counting.
When you have added the maximum number of pieces required, remove the sample pieces and start your counting job.
12. RS-232C SERIAL INTERFACE
The scale has not only a standard RS-232C interface but also optional interfaces, Ch.1 and Ch.2.
The specifications described in this section are common to all of the RS-232C interfaces.
12-1. RS-232C Specifications
Transmission system
Transmission form
Data format
EIA RS-232C
Asynchronous, bi-directional, half-duplex
Baud rate:
Data:
2400, 4800, 9600 bps
7 bits + parity 1bit (even or odd)
Start bit:
Stop bit:
Code:
Terminator: or 8 bits (non-parity)
1 bit
1 bit
ASCII
Data Send / C
R
L
F
(C
R
: 0Dh, L
F
: 0Ah)
Data Receive / C
R
or C
R
L
F
LSB
0 1 2 3 4 5
MSB
6
1 (-15V~-5V)
0 (5V~15V)
Pin connections
D-sub 9pin male connector
Stop bit
Parity bit
Data bit
Start bit
1 N.C.
Inside of the Scale
4 N.C.
6 Data set ready
7 Request to send
8 Clear to send
9 N.C.
The scales are designated as DCE (Data Communication Equipment).
12-2. Data Output Mode
The data output modes and parameters are set by F-Functions in f-06
/
07
/
08-
X
as described in the F-Function parameters, section 9.
To control the scale using commands from an external device, refer to “
12-5.
Command Mode
”.
Refer to “
12-5. Command Mode
” about the output data format.
Data Out Mode (
f-06
/
07
/
08-01
)
Key Mode ( f-06/07/08-01
="
0
")
When the weight display is stable, data is sent by pressing the PRINT key.
The count display will blink when the data has been sent.
Stream Mode ( f-06
/
07
/
08-01
="
1
")
Data is sent continuously. The data-update rate is approximately 5 times per second for f-06
/
07
/
08-03
="
2
". For f-06
/
07
/
08-3
="
0
" or "
1
", the interval between continuous data is approximately 2 seconds.
Auto-print Mode A ( f-06
/
07
/
08-01
="
2
")
Data is sent if the WEIGHT display is stable at +5d (weighing display division) and above. The next transmission can not occur until after the weight display falls below
+5d.
Auto-print Mode B ( f-06
/
07
/
08-01
="
3
")
Data is sent if the WEIGHT display is stable at ±5d (weighing display division) and above/below. The next transmission can not occur until after the weight display falls between –5d and +5d.
To use with the UFC format.
Refer to "
12-7. Using UFC (Universal Flex Coms) Function
"
Data to be Sent (
f-06
/
07
/
08-02
)
Select which data is o be sent by keying in a 0 or 1 for the data: Date / time, ID
Number, PCS (count), weight or unit weight.
Example:
Key in 0 1 1 0 0 to display
01100
, this setting would send only the
ID number and the count.
.f-06-02
SFV
& R P S D U D W R U
12345678C000045678id-0 01100
6 $ 0 8 8 : J & O H D U , '
12345670.0000045678901234567
‘
0
’ not to send data
‘
1
’ to send data
Unit weight
Weight
PCS (count)
ID
Date / time
Data Format (
f-06
/
07
/
08-03
)
Format for AD-8121 MODE 1 or 2. ( f-06
/
07
/
08-03
="
0
")
Format for AD-8121 MODE 3. ( f-06
/
07
/
08-03
="
1
")
Format for general apparatuses, computers, etc. ( f-06
/
07
/
08-03
="
2
")
Baud Rate (
f-06
/
07
/
08-04
)
Select the baud rate according to the device to be connected.
2400 bps ( f-06
/
07
/
08-04
="
0
")
4800 bps ( f-06
/
07
/
08-04
="
1
")
9600 bps ( f-06
/
07
/
08-04
="
2
")
Select 2400 bps to connect with an AD-8121.
12-3. Connecting the AD-8121 Printer / MODE 1 or MODE 2
When using the AD-8121 printer (MODE1 or MODE 2), you will be able to get data:
Number of data items, total, maximum, minimum, mean value, range of data
(max. - min. data) and standard deviation.
When using the AD-8121 with MODE 2, set f-06
/
07
/
08-02
to print pcs (count) data only or weight data only.
To print date and time, use the AD-8121’s calendar / clock function and set f-06
/
07
/
08-2
to print pcs (count) data only or weight data only.
Print Operations Settings
Print By:
FC PRINT key
Auto Print
Printer DATA key
F-Function f-06
/
07
/
08-01
Printer MODE
0
2 or
3
1
MODE 1
MODE 1
MODE 2
Example of
f-06
/
07
/
08-02
settings
To print pcs (count) data only: set f-06
/
07
/
08-02
at "
00100
"
To print weight data only: set f-06
/
07
/
08-02
at "
00010
"
To print pcs (count) and weight data: set f-06
/
07
/
08-02
at "
00110
"
To print pcs, weight and Unit Weight data: set f-06
/
07
/
08-02
at "
00111
"
To print total data (accumulated by the M+ key), press the TOTAL key so the
Count display shows the total, then press the PRINT key.
If you are using the AD-8121’s statistic functions, then set f-06
/
07
/
08-02
at
"
001
#
0
" (# =
0
or
1
) for pcs (count) data or "
00010
" for weight data.
MODE 1 and 2 of the AD-8121 can not print ID numbers.
12-4. Connecting the AD-8121 Printer / MODE 3
When using MODE 3 of the AD-8121 printer, printouts are obtained using the
PRINT key ( f-06
/
07
/
08-01
=
0
), or auto-print mode A/B ( f-06
/
07
/
08-01
=
2
or
3
).
MODE 3 can print the ID number with its item code.
To print date/time, set f-06
/
07
/
08-02
at "
1
####" (# =
0
or
1
).
The total data (accumulated by the M+ key) will be printed along with the number of additions to
M+
memory.
The AD-8121 / MODE 3 does not have statistical functions.
AD-8121 Printout Sample
MODE 1
473&
:7NJ
8:J
473&
:7NJ
8:J
$43&
ID number
Item code pcs (count)
Weight
Unit weight
Number of accumulation
TOTAL
MODE 3
,'
$%&'()*+,-./
473&
67NJ
8:J
,'
$%&'()*+,-./
473&
67NJ
8:J
1
727$/
3&
12-5. Command Mode
In the command mode, the scale is controlled by commands that come from an external device, computer etc.
Do not set f-06
/
07
/
08-01
="
1
" (stream mode) to use with the command mode. if you don’t want to use command mode together with key mode or auto-print mode, set f-06
/
07
/
08-01
="
4
" (command mode only).
Use a D-sub 9 pin cable (straight type) to connect with a computer.
Option cable: AX-KO2466-200, D-sub 9 pin, 2m
Command List
Command
@
Definition
Start / stop continuous data transmission.
Notes
A
D
E
F
G
Same as RESET key.
Set a known tare weight.
Store the unit weight in use, other values and specified item code to ID memory.
Recall a unit weight from ID memory.
Set a known unit weight.
Key command
“D,1.23C
R
L
F
” sets the tare weight as "1.23kg".
Refer to the data format.
Refer f-01-05
“F123C
R
L
F
” recalls from
ID000123.
“G,0.123C
R
L
F
” sets the unit weight as "0.123g" (or "0.123 lb").
Q
S
T
X
K
P
I
J
Same as the REMOTE SCALE key.
Same as the TOTAL key.
Same as the M+ key.
Same as the STANDBY/OPERATE key.
Send data immediately.
Send stable data after accepting command.
Same as the TARE key.
Request a list of the F-Function parameters.
Key command
Key command
Data depends on f-06
/
07
/
08-02
Key command
Y
Z
Request a list of the ID memory contents.
Same as the ZERO key.
ON Turn the display ON.
OFF Turn the display OFF.
The last data terminates with
<EOT> (04H)
Key command
?ID
Send the ID number and item code in use.
?QT
Send the pcs (count) data.
?WT
Send the weight data.
?UW
Send the unit weight in use.
?AQ
Send the total (accumulated)
M+
memory count
?AN
d t
M+
memory.
Refer to the data format for the reply.
?TR
Send the tare weight in use.
?MR
Send the specified ID memory contents.
Command
MR
Definition
Store the unit weight and tare weight into the specified ID memory.
MI
ML
MA
Store the item code into the specified ID memory.
Store the comparator limits into the specified ID memory.
Store the total count and number of additions into the specified ID memory.
Notes
Refer to the data format for the reply.
CM
?FC
FC
Clear the specified ID memory contents
Send the specified F-Function setting.
Store the specified F-Function setting value.
“CM,1.23C
R
L
F
” clears content of id000123
.
Refer to the data format for the reply.
Acknowledgment and Error Codes
When the scale receives an external command, it reacts as follows:
If the command requests a data reply, the scale will send the data.
For other commands, the scale will send an acknowledgment <AK> (06H) upon acceptance of the command.
If the command is I
,
S
,
T
or
Z , the scale will send a second acknowledgment
<AK> (06H) when the command operation is completed.
If an error occurs, the scale will send an error code.
The error format is
E C , E n C
R
L
F
, "n" being the error number.
En Definition
E0 Communication error
Notes
Parity error, framing error, etc.
E1 Undefined command error The command does not exist for the scale.
E2 Scale not ready error.
The scale is not in a state where a command could be expected.
E4 Too many characters error The command contains too many characters.
E6 Format error
E7 Out of range error
The command contains invalid characters.
Value is out of range. The tare weight is more than the capacity, etc.
Data Format
“ ” in examples below shows “Space” (20H).
Store the unit weight in use, other values (according to f-01-05
) and specified item code
Command
E , 1 2 3 C L
F
E , 1 2 3 , a b c C L
F
Stores into id000123
with no item code.
Stores into id000123
with item code
" b ”
Reply
AK
ID number and item code
Command ?
I D C L
F
Reply I D , 0 0 0 1 2 3 C L
F
A B C D E F G H I J K L C L
F
ID number
Item code (These are “space” for no item code.)
PCS (Count ) data
Command ? Q T C L
F
Reply Q T , + 0 0 0 0 1 2 3 4
[ P C C L
F
Stable positive data
U S , 0 0 0 0 5 6 7 8
[ P C C L
F
Unstable negative data
O L , + 9 9 9 9 9 9 9 9
[ P C C L
F
"E" display
Weight data
Command ? W T C L
F
Reply S T , + 0 0 1 .
2 3 4 6
[ k g C L
F
Stable positive data
S T , 0 0 2 .
7 2 5 5 l b C L
F
Stable negative data
U S , 0 0 1 2 .
3 4 6 l b C L
F
Unstable negative data
U S , + 0 0 0 5 .
5 9 3
[ k g C L
F
Unstable positive data
O L , + 9 9 9 9 .
9 9 9
[ k g C L
F
"E" display
O L , 9 9 9 9 .
9 9 9 l b C L
F
"-E" display
Unit weight
Command ? U W C L
F
Reply U W , + 1 .
2 3 4 5 6 7
U W , + 0 .
2 7 2 5 3 1
[ g C L
F l b C L
F
Total count
Command ? A Q C L
F
Reply
A Q , + 0 0 9 9 9 9 9 9
[ P C C L
F
Accumulation number
Command ? A N C L
F
Reply
Tare weight
A N , 0 0 0 0 1 2 3 4 C L
F
Command
? T R C L
F
Reply T R , + 0 0 1 .
2 3 4 6
[ k g C L
F
Request the scale to reply with the contents of ID memory.
Command ? M R , 1 2 3 C L
F
Request the contents of id000123
.
Reply
M R , 0 0 0 1 2 3 , a b c d e f g h i j k l ,
1 2 .
3 4 5 6 7 , + 0 0 0 .
2 3 4 5 , + 0 0 0
0 1 3 5 7 , + 0 0 0 0 1 2 4 6 , + 0 1 2 3 4 5
6 7 , 0 0 0 0 1 2 3 4 C L
F
MR, ID number (6 digit), item code (12 digits), unit weight (8 digits including decimal point), tare weight (9 digits including sign and decimal point), upper limit (9 digits including sign), lower limit (9 digits including sign), total count (9 digits including sign), number of additions (8 digit) C
R
L
F
.
Command
? M R C L
F
Reply
Request the contents of the next ID.
M R , 0 0 0 1 2 4 , A B C D E F G H I J K L ,
2 3 .
4 5 6 7 8 , + 0 0 0 .
2 3 4 5 , + 0 0 0
0 1 3 5 7 , + 0 0 0 0 1 2 4 6 , + 0 2 3 4 5 6
7 8 , 0 0 0 0 2 3 4 5 C L
F
Store the unit weight and tare weight into a specified ID memory.
Command M R , 1 2 3 , 1 .
2 3 , 0 .
3 4 5 C L
F
ID # Unit weight Tare weight
Reply
AK
ID number: Maximum 6 digit
Unit weight: Maximum 8 digit including decimal point
Tare weight: Maximum 8 digit including decimal point ("kg" or "lb" depends on f-00
setting).
Store the item code into a specified ID memory.
Command M I , 1 2 3 , a b c d C L
F
ID # Item code
Reply AK
ID Number: Maximum 6 digit
Item Code: Maximum 12 digit
The example above is stored as
“ a b c d ”
Store the comparator limits into a specified ID memory.
Command M L , 1 2 3 , + 1 0 1 0 , + 9 9 0 C L
F
ID # Upper Limit Lowe Limit
Reply
AK
ID number: Maximum 6 digit
Upper limit: Maximum 9 digit including sign
Lower limit: Maximum 9 digit including sign
Store the total count and number of additions into a specified ID memory.
Command
M A , 1 2 3 , + 6 7 8 9 ,
1 2 3 C L
F
ID # Total Count # of Additions
Reply AK
ID number: Maximum 6 digits
Total count: Maximum 9 digits including sign
Number of addition: Maximum 8 digits
Request the scale to reply with the F-Function settings.
Command
? F C , 0 5 0 1 C L
F
Request the setting of f-05-01
.
Reply
F C , 0 5 0 1 , 0 C L
F f-05-01
=
0
F-# Setting value
Command
? F C C L
F
Reply
Request to reply with the setting of the next F-Function.
F C , 0 5 0 2 , 0 C L
F f-05-02
=
0
Store the specified F-Function setting value
Command
F C , 0 5 0 3 , + 1 2 3 4 C L
F
Set “1234” as the Upper limit.
F-# Setting value
F-Function number: 4 digits
Setting value: Maximum 8 digits including sign.
Reply
AK
Command
O N C L
F
Start with new settings.
Reply AK
Having finished the "FC" command, send the "ON" command to start the scale with new settings. The scale replies <AK> (06H) and starts.
12-6. Using a Bar Code Reader
The bar code reader can be connected to the RS-232C interface on the scale. It can read bar codes for the ID number, unit weight, tare weight and comparator limits.
Any of the RS-232C interfaces can be used for the bar code reader.
Set the F-Function f-06
/
07
/
08-01
="
5
" to use a bar code reader.
For example, to use Ch.1 (PORT 1), set f-07-01
="
5
".
Refer to “13-1. OP-01 Bar Code Reader” about the optional bar code reader.
Requirement for the Bar Code Reader
Baud rate
Character code
2400, 4800, 9600 bps
ASCII
Terminator C
R
or C
R
L
F
Bar code EAN/JAN, UPC, Codabar (NW-7), Interleaved 2 of 5,
Connector
Code39 etc., depending on the bar code reader.
D-Sub 9pin connector (recommended)
In most cases, a bar code reader with an RS-232C interface is to connect directly with a personal computer. The signals must be converted to connect this kind of bar code reader with the scale. Refer to the diagram below.
RS-232C adapter or cable
Bar Code Reader
D-Sub 9pin
Female connector
D-Sub 9 pin
female connector
D-Sub 9 pin male connector
1 1
2 2
3 3
4 4
5 5
6 6
7 7
8 8
9 9
Do not use RS-232C adapter/cable to connect the bar cod reader (OP-01) to the
RS-232C interface on the scale.
Some bar codes will have start and stop characters. But, set your bar code reader not to send those characters to the scale. The scale doesn’t accept such data.
EAN/JAN/UPC bar codes usually have a check digit and other bar codes may have either. But, set your bar code reader not to send the check digit. The scale doesn’t accept such data. If sent, the scale cannot tell the difference between data and the check digit.
Read the instruction/technical manual of your bar code reader to connect it with the scale.
Bar Code Data and Format
The bar code data that the scale accepts are ID number, unit weight, tare weight and comparator limits.
The bar code has "2 digit identification code + 6 digit numbers" for the ID number and "2 digit identification code + maximum 10 digit numbers including sign and decimal point" for the other data.
The unit weight and tare weight must be within 6 digits, except insignificant zeros.
Unit weight 123.456 g: “12+123.456” acceptable
Tare weight 10 kg: “15+10” acceptable
The comparator limits must be within 7 digits, except insignificant zeros.
Upper limit: “17+123” acceptable
Bar Code
Data
Identification
Code
ID Number
Unit Weight
(g)
Unit Weight
(lb)
Unit Weight
(lb/1000pcs)
Tare Weight
(kg)
Tare Weight
(lb)
Comparator
Upper limit
Comparator
Lower limit
01
12
13
14
15
16
17
18
Numbers Function
6 digits ID number.
10 digits including sign and decimal point.
10 digits including sign and decimal point.
10 digits including sign and decimal point.
10 digits including sign and decimal point.
10 digits including sign and decimal point.
10 digits including sign.
10 digits including sign.
Recall the unit weight by ID number. Similar function to “
3-5.
Unit Weight By ID Number
”.
Enter a unit weight in “g” directly.
Similar to “
3-4. Unit Weight by
KEYBOARD
”
Enter a unit weight in “lb” directly.
Similar to “
3-4. Unit Weight by
KEYBOARD
”
Enter a unit weight in “lb/1000pcs” directly. Similar to “
3-4. Unit
Weight by KEYBOARD
”.
Enter a tare weight in “kg” directly.
Similar to “
4-1. Using the
KEYBOARD TARE key
”.
Enter a tare weight in “lb” directly.
Similar to “
4-1. Using the
KEYBOARD TARE key
”.
Change comparator upper limit temporarily.
Change comparator lower limit temporarily.
Tare Weight
(g)
19
10 digits including sign and decimal point.
Enter a tare weight in “g” directly.
Similar to “
4-1. Using the
KEYBOARD TARE key
”.
If the EAN/JAN/UPC-A is used for ID number, put leading zeros (that are “0” for the high-order digits) to keep the necessary digit number.
Example of ID number “000123”
EAN/JAN-13 010000000123[3] ([3] shows check digit)
EAN-8
UPC-A
0100123[5]
01000000123[5]
([5] shows check digit)
([5] shows check digit)
When the data from bar code reader is not acceptable, the scale will beep 4 times.
The data contains too many digits or too many significant digits.
The data contains invalid identification code.
The data is out of range. (The tare data is more than the capacity, etc.)
The tare or unit weight has a minus sign.
The data has start / stop characters or a check digit. These will lead to the invalid identification code, too many digits and so on.
The check digit may be accepted as a wrong number.
Do not set the bar code reader to send the check digit.
Example: EAN-8 / 0100123[5] ([5] is a check digit) can be accepted as ID number
“001235”.
Examples of Bar Code
ID Number = 123456 Interleaved 2 of 5
01123456
ID Number = 123456 EAN/JAN-13
0100001234562
ID Number = 123 EAN/JAN-8
01001235
ID Number = 123 UPC-A
010000001235
Unit weight = 123.456g Code 39
*12+123.456*
Unit weight =
0.27217 lb
Code 39
*13+000.27217*
Tare weight =
1.234 kg
Code 39
*15+00001.234*
Tare weight =
0.5 lb
Code 39
*16+0.5*
Comparator upper limit
=12345
A17+000012345A
Codabar (NW-7)
12-7. Using UFC (Universal Flex Coms) Function
The UFC function allows you to print out as you format the printer (UFC format).
The scale can store the UFC format as text data. It will include parameters to replace with the count data, weight data and so on.
The maximum number of text data is 384 characters.
Using “PF” command, the text data has to be sent to the scale in advance.
When the PRINT key is pressed or by auto-print mode A/B, the scale will send the stored text data with the parameters replaced by the original data.
Terminator for the “PF” command is "C
R
" or "C
R
L
F
".
The UFC format data can be sent through one RS-232C interface only.
Set one of f-06
/
07
/
08-01 at "
6
", "
7
" or "
8
" to send the data. The others must be set at "
0
" ~"
5
" ("
4
" will be recommended if the other format data is not necessary to send).
Store Text Data into the Scale Memory
Command P F , $ P C , ‘ T E X T ‘ , # 2 0 , $ S P
$ C R , $ L F , $ W T , $ C R , $ L F C L
F
Reply AK
Terminator
2 , &
The “PF” command sends text data that will include:
Parameters for the scale data and control codes
Parameter
$PC Count
Data & Code
$WT Weight
$UW Unit weight in use
$TR
$TL
Tare weight in use
Total count
$AN Accumulation numbers
$CD ID number in use
$NM Item code in use
Parameter Data & Code
$CP Comparator result
$DT Date
$TM Time
$CM Comma
$SP Space
$CR Carriage Return
$LF Line Feed
These parameters must be used capital letters.
ASCII text string
Text string is described in single quote marks as ‘Data’.
The single quote itself is written as ’’(2 single quotes).
Example: Text ‘ABC’ is described as ‘’’ABC’’’.
The ASCII hexadecimal code
The ASCII hexadecimal codes are written in the form “#" + 2 hexadecimal digits.
This will mainly be used to send control codes that can’t be described as a text string.
Example: #04 “EOT” of ASCII code
Repeat data
The control codes $SP, $CR and $LF can be used with “ + maximum 2 digit number”. That code will be repeated the number of times designated.
Example: $LF 9 Repeat “$LF” 9 times.
$SP 12 Put 12 “Spaces”.
Link mark “&”
If you will send more than 2 lines of data, attach “&” to the end of the first line. Then, the scale considers the data to be continued.
“Space” or “,” will be used to separate these data. You can skip them, but you cannot skip “,” after “PF”. You must start with “PF,”.
Data Format for the Scale Data
“ ” in examples below shows “Space” (20H).
Parameters for the scale data will be replaced by the format below when the scale sends them out.
Data has a fixed number of digits including a sign and a decimal point. The insignificant zeros are replaced by “Space (20H)” (except the ID number).
$PC
$WT
$UW
$TR
+ 1 .
2 3 4 5 6 7
[ g
1.234567 g / 9 digit data + 3 digit unit
[ + 1
.
2 3 4 5
[ k g 1.2345 kg / 9 digit data + 3 digit unit
$TL
[ + 1 2 3 4 [ P C
1234 pcs / 9 digit data + 3 digit unit
[ + 4
.
3 2 1 0
[ k g 4.3210 kg / 9 digit data + 3 digit unit
$AN
[ + 9 9 9 9 9 9 [ P C
999999 pcs / 9 digit data + 3 digit unit
[ 1 2 3 4
1234 times / 8 digit data
$CD 0 0 0 1 2 3 ID Number 000123 / 6 digit data
$NM Z
[ D [ 5
.
6 V
$CP
$DT
[ 12 characters
O K Result is “OK” / 2 characters
Result is not available.
0 3 / 1 8 / 2 0 0 3 The order of date obeys f-11-01
.
$TM 1 2 : 3 4 : 5 6 12(h) 34(m) 56(s)
Examples of PF command and AD-8121 Printout Sample
AD-8121 Printout
( f-06
/
07
/
08-03
=”
0
” or “
1
”)
“PF” Command
,'
31='9
&RXQW
3&
8QLW:HLJKW
J
:HLJKW
NJ
$ ')&L
PF,‘ID
~
’,$CD,$CR,$LF,&
‘PN
~
’,$NM,$CR,$LF,&
‘Count’,$CR,$LF,&
$SP 4,$PC,$CR,$LF,&
‘Unit
~
Weight’,$CR,$LF,&
$SP 4,$UW,$CR,$LF,&
‘Weight’,$CR,$LF,&
$SP 4,$WT,$CR,$LF,&
$CR,$LF,&
$SP 3,$DT,$CR,$LF,&
$SP 3,$TM,$CR,$LF,&
$CR,$LF,&
‘
~~
A&D
~
FC-5000i’,$CR,$LF
Terminator codes
"
~
" shows "Space.".
Normally the printer needs to receive the terminator, and do not forget to add the terminator code(s) to the end of text data.
13. OPTIONS
13-1. OP-01 Bar Code Reader
The OP-01 includes a bar code reader, RS-232C cable, AC adapter (100V~240V), power plug adapter (US to European plug) and a setting-up bar code sheet.
The OP-01 bar code reader can be connected to one of the RS-232C interfaces. It can read bar codes for the ID number, unit weight, tare weight and comparator limits.
When the bar code reader reads the ID number, the scale will recall unit weight from ID memory instead of by using the ID key.
Set the F-Function f-06
/
07
/
08-01
="
5
" to use a bar code reader.
For example, to use Ch.1 (PORT 1), set f-07-01
="
5
".
Refer to “12-6. Using a Bar Code Reader” about the bar code data and prepare bar code labels.
The OP-01 bar code reader can be connected to one of the RS-232C interfaces. It can read bar codes for the ID number, unit weight, tare weight and comparator limits.
Scanner Window
Emits light to read bar code.
Buzzer
Beeps on successful read and decode.
LED
Indicates RED as standby position.
Indicates GREEN on successful read.
TRIGGER switch
Triggers the bar code scanner.
01123456
01123456
RIGHT
WRONG
Cable interface port
for cable connecting.
• Aim the scanner at the barcode and press the trigger.
• Ensure the scan line crosses every bar and space.
• Do not hold the scanner directly over the barcode.
• Maximum reading distance is approx. 15 mm (6 inches).
Using OP-01 Bar Code Reader
1. Plug the modular connector of RS-232C cable into the port on the bottom of bar code reader, and twist the lock to the right to lock it.
2. Connect the other end of the RS-232C cable to the RS-232C interface of the scale.
3. Plug in the AC adapter for OP-01. AC adapter jack is located at the side of the RS-232C cable connector.
4. Set the F-Function f-06
/
07
/
08-01
="
5
" according to the interface you connected.
For example, to use Ch.1 (PORT 1), set f-07-01
="
5
".
RS-232C cable
AC adapter plug
5. Read the next bar codes step by step, then the bar code reader will be set to work with the scale.
Lock
This sets the RS-232C to be 9600 bps and 8 bits data / non parity. Set the
F-Function f-06
/
07
/
08-04
="
2
" and f-06
/
07
/
08-05
="
2
". For example, to use Ch.1
(PORT 1), set f-07-04
="
2
" and f-07-05
="
2
".
By this set-up, the FC-
i
/ FC-S
i
can accept bar codes of EAN-13/8, JAN-13/8,
UPC-A/E, Codabar (NW-7), Interleaved 2 of 5 and Code 39.
The UPC-A bar code can not be used together with EAN/JAN-13.
Refer to "Note 1" at "Step 4".
Note 1: When using UPC-A bar code, skip "Step 4".
STEP
Step 1
Set-up Bar Code Definition
Start of configuration
Step 2
Rest to default settings
Select RS-232C interface
Step 3
Step 4
Refer to Note 1
Step 5
Force UPC-A to EAN-13
Disable transmitting UPC-A check digit
Step 6
Step 7
Step 8
Step 9
Step 10
Step 11
Step 12
Disable transmitting UPC-E check digit
Disable transmitting EAN-13 check digit
Disable transmitting EAN-8 check digit
Disable transmitting
CODABAR Start/Stop character
Disable transmitting CODE 39 check digit
Disable transmitting
Interleaved 2 of 5 check digit
End of configuration
13-2. OP-02 Ni-MH Battery Pack
Using OP-02 Battery Pack
By using the OP-02 Ni-MH battery pack, the scale can be operated for around 10 hours, after a full charge and using no other options
.
1. After making sure that the battery switch on the battery pack is "OFF" position, insert the battery pack firmly into the rear side of the scale.
OP-02 Slot
Battery Switch
Lock Screw
2. Tighten the lock screw on the battery pack.
3. When desired, turn the battery switch on to supply power to the scale. The display will come on after its self-check.
4. Use the STANDBY/OPERATE key to turn the display on or off. When the scale is in standby mode, a period appears in the weight display as an indicator.
STANDBY
OPERAT
ACAI
SAMPLE
TOO LIGHT
STABL
ZERO
TOTAL
M+
SCALE
TARE
ENTERED
888888
SFV
Standby Indicator
123456789012345678901234567
123456789012345678901234567
When the count display shows “ lo bat
” for low battery, the battery power is almost exhausted and should be recharged.
.lo bat
SFV
& D O L E U D W L R Q ( Q G
Before getting to low battery, the display will show “ lo bat
” on and off to indicate that the battery power is coming close to low battery.
& D O L E U D W L R Q Z H L J K W N J
123456789012345678901210.000
The STANDBY/OPERATE key only turns the display on or off (and keeps the scale warmed up on standby). When the scale is not used for a long periods, switch the battery switch to "OFF" position.
Recharging the Battery
1. Turn the battery switch off on the battery pack.
2. Fully loosen the lock screw and remove the battery.
If you want to recharge the battery while it is still in the scale, you may do so. In that case, disregard step 2 – but do not turn the battery switch on. If you wish to use the scale, connect another AC adapter.
3. Connect the AC adapter to the battery pack.
The battery pack will take about 15 hours to fully charge.
Charge the battery pack at a temperature between 0°C (32°F) and 40°C (104°F).
Do not charge too long as overcharging will reduce the life of batteries.
Be sure to charge the battery pack when using for the first time or if it was not used for long time (more than one month). Two or three times of recharging may be needed to reach full charge.
Be sure to use the AC adapter that is provided with the scale.
Battery switch
AC Adapter to battery pack
AC Adapter to scale
Charge Scale operation
ON or OFF Connected
ON or OFF Not connected
OFF Connected
Connected
Connected
Not connected
Yes
No
Yes
Operational
Operational
Not operational
ON Connected Not connected No Not recommended (See note)
Note The scale will be operational. After connecting the AC adapter to the battery pack, you may have to turn the battery switch OFF once and turn it ON to operate the scale.
13-3. OP-03 2 Ch. RS-232C
Multiple RS-232C interfaces expanding your counting applications are obtained by installing OP-03.
Standard RS-232C
OP-03 Installation
1. Disconnect the AC adapter from the scale.
2. Remove the two screws and panel covering the OP-03/04 slot.
3. Connect the connector in the scale to the
OP-03 unit.
4. Secure the OP-03 unit using the screws removed in the step 2 above.
OP-03/04 slot
Ch. 2
Specifications are same as the standard
RS-232C interface and refer to “
12.
RS-232C SERIAL INTERFACE
”.
Ch. 1
13-4. OP-04 RS-232C and Comparator Relay Output
Multiple RS-232C interfaces and relay output for the comparator results are obtained by installing OP-04.
OP-04 Installation
See the OP-03 installation.
OP-04 is installed to the same slot as option OP-03.
The RS-232C specifications are same as the standard RS-232C interface.
Refer to “
12. RS-232C SERIAL INTERFACE
”.
Comparator Relay Output
RS-232C Ch. 1
Comparator Relay Output Circuit
Solid state relay Output connector
MSTB 2.5/4-GF-5.08
LO
OK
1 COM
2 LO
3 OK
4 HI
Mating connector
MSTB 2.5/4-STF-5.08
(Attached to the OP-04)
1 2 3 4
7 mm
HI
Inside of the Scale
Maximum rating of the Relay Output
The maximum rating of the replay output is as follows.
Maximum voltage:
Maximum current:
50V DC
100mA DC
Maximum ON resistance: 8
:
13-5. OP-05 Remote Scale Interface
A two-scale system using the scale is possible by installing OP-05 and connecting a remote scale. You can use any load cell platform that meets the conditions in this section.
OP-05 Installation
1. Disconnect the AC adapter from the scale.
2. Remove the two screws and panel covering the Remote scale slot.
3. Connect the connector in the scale to the
OP-05 unit.
4. Secure the OP-05 unit using the screws removed in the step 2 above.
If you are not using the remote scale for the moment, attach the protective screw cap to the remote scale connector.
Remote scale slot
Load cell
Notes on Using the Remote Scale
To get a highly accurate counting unit weight, use the main scale to register the unit weight and use ACAI feature. After registration, switch to the remote scale to count.
If f-01-03
is set at “
1
”, then the scale will automatically switch to the remote scale after the unit weight (by sample pieces) is registered by the main scale.
Pressing the SAMPLE key will always return to the main scale.
Be aware that both the main and remote scales have separate tare values. So, if you want to use a tare container on both, it must be tared on both.
F-Function f-01-06
can be set so the remote scale has an independent unit weight, or is restricted to the same as the main scale.
Specifications for Remote Scale
The scale has the ability of driving up to 4 load cells (350
:
) in a remote scale
(platform). Set for the capacity range 0.5kg to 5,000kg (1 lb to 10,000 lb).
The scale has the ability of driving up to 4 load cells (350
:
) in a remote scale
(platform).
Capacity range
for the remote scale is 0.5kg to 5,000kg (1 lb to 10,000 lb).
Minimum output
at zero point is 1mV.
Maximum output
at full load is 14mV.
Excitation Voltage of the scale is 5V.
Cable length
should be kept under 5m (16.5 ft.) for higher accuracy.
Pin connection
(JM:NJC-207-PF):
The Load Cell and Input Sensitivity
The relationship between load cell and input sensitivity (
X
) for the scale is follows:
Example Load Cell Capacity
Rated Output
Min., Division of Display
100kg
3mV/V
0.01kg
“
A
”
“
B
”
“
D
”
When a single Load Cell is used, the following formula should apply:
5,000 x x
D
“
X
”= µV
A
System design will be satisfactory if “
X
” is greater than 0.5µV. In the example above
“
X
” = 1.5µV.
Capacity and Resolution
The resolution of the remote scale is automatically determined during the calibration procedure. The following is to enable you to calculate the resolution for a given capacity.
1. Decide the capacity value and assign it to “Ws”. Maximum 5 digits.
2. Get the maximum count “Ns” for the capacity. Ignore the decimal point and add “0” to Ws until it is 5 digits.
3. Calculate: d’=Ns/10,000.
4. Decide the minimum division “d”. d’=1
Æ d=1
2 t d’>1
Æ d=2
5 t d’>2
Æ d=5 d’>5 Æ d=10 This should be changed to d=1, dividing Ns by 10.
5. Now “Ns x d” and the resolution 1/No = d/Ns can be determined.
Step Parameters
1 Ws
2
3
4
5
Ns d’ d
Ns x d
1/No (=d/Ns)
Example 1
200kg
20,000
2
2 (=0.02kg)
20,000 x 2
1/10,000
Example 2
30.0kg
30,000
3
5 (=0.005kg)
30,000 x 5
1/6,000
Example 3
600kg
60,000
6
10 (=0.1kg)
6,000 x 1
1/6,000
6. Calculate the voltage sensitivity “Es”.
Es = (As-Ao) x 5,000 x 1/No (µV) [5,000 means excitation voltage 5V]
Ao: Load cell output at zero point (mV/V)
As: Load cell output at full capacity (mV/V)
7. Check the voltage sensitivity “Es”.
Es t
0.5µV Æ Calculated “Ns x d” is fixed. In example 3 in the step 5, a 600kg x
0.1kg scale will be obtained.
Es<0.5µV Æ Change “d” for new resolution 1/No. d=1
Æ
2 d=2
Æ
5 d=5 Æ 10 Æ 1 (dividing “Ns” by 10)
In example 1, the new d=5: 1/No=d/Ns=5/20,000=1/4,000 (200kg x 0.05kg)
In example 2, the new d=1 and Ns=3,000: 1/No=d/Ns=1/3,000 (30kg x
0.01kg)
Using the new 1/No, go to step 6 and repeat it until Es t
0.5µV in step
7.
Remote Scale kg/lb relationship
When the capacity was set by “kg”:
Let capacity x minimum division = Ws x W d
(kg)
When: d = 1, then W d
(lb) = W d
(kg) x 2 d = 2, then W d
(lb) = W d
(kg) x 5/2 d = 5, then W d
(lb) = W d
(kg) x 2
And:
Ws (lb) = W d
(kg) x No
Example: 15kg x 0.002kg, No = 15kg/0.002kg =7,500
W d
(lb) = 0.002 x 5/2 = 0.005 (lb)
Ws (lb) = 0.005 (lb) x 7,500 = 37.5 (lb)
When the capacity was set by “lb”:
Let capacity x minimum division = Ws x W d
(lb)
When: d = 1, then W d
(kg) = W d
(lb) x 1/2 d = 2, then W d
(kg) = W d
(lb) x 1/2 d = 5, then W d
(kg) = W d
(lb) x 2/5
And:
Ws (kg) = W d
(lb) x No
Example: 30lb x 0.005lb, No = 30lb/0.005lb =6,000
USA Version ONLY
W d
(kg) = 0.005 x 2/5 = 0.002 (kg)
Ws (kg) = 0.002 (kg) x 6,000 = 12 (kg)
Calibrating the Remote Scale
When a remote scale is newly connected, set the capacity and calibrate the scale using a weight.
The scale must be warmed up (plugged in) for at least 30 minutes before starting calibration.
1. Remove the calibration switch cover, and press the calibration
CAL
switch.
The scale shows “CAL” in the count display.
Press the CAL switch to exit without calibrating the scale.
88 Cal 10
SFV
> = ( 5 2 @ & D O L E U D W L R Q
1234567890123
> 7 $ 5 ( @ * U D Y L W \ $ F F H O H U D W L R Q
1234567890123
2. Press the REMOTE SCALE key to display SCALE “ ”.
When SCALE “ ” is displayed, press the
REMOTE SCALE key again.
Once the remote scale has been calibrated, the display will go to step 4.
SCALE “ ”: Main Scale
SCALE “ ”: Remote Scale
88 Cal 10
SFV
0 D [ L P X P & D S D F L W \ N J
Cal4567890123aaaaaaaaa10.00
0
> 7 $ 5 ( @ * U D Y L W \ $ F F H O H U D W L R Q
1234567890123
3. Use the 0
Æ
9 and
.
10-key pad to display the desired capacity.
(Example of capacity 2000kg)
4. Press the ENTER key.
The capacity value stops blinking.
When the remote scale has been changed or to change capacity, go back to step 3.
ENTER
5. Press the ENTER key again to store the capacity entered and the remote scale is ready to be calibrated.
ENTER
88 Cal 10
SFV
0 D [ L P X P & D S D F L W \ N J
Cal4567890123aaaaaaaaa1 2000
> 7 $ 5 ( @ * U D Y L W \ $ F F H O H U D W L R Q
1234567890123
#$% &'( )*+ ,-.
/01 2345 678 9:;<
%
88 Cal 10
SFV
0 D [ L P X P & D S D F L W \ N J
Cal4567890123aaaaaaaaa 2000.0
> 7 $ 5 ( @ * U D Y L W \ $ F F H O H U D W L R Q
1234567890123
88 Cal 10
SFV
> = ( 5 2 @ & D O L E U D W L R Q
1234567890123
> 7 $ 5 ( @ * U D Y L W \ $ F F H O H U D W L R Q
1234567890123
6. Go to step 2 in section “
9-1. Calibration Procedure Using a Weight
” to calibrate the remote scale.
14. SPECIFICATIONS
MODEL
Capacity (k)g
Resolution (k)g
Capacity lb
Resolution lb
Sample Size
Min. Unit Weight
(Normal mode)
Min. Unit Weight
(Fine mode)
FC-500
i
FC-1000
i
FC-2000
i
FC-5000
i
FC-10K
i
FC-20K
i
FC-50K
i
500 g
0.05 g
1 lb
0.01 g
0.0005 g
1 kg
0.1 g
2 lb
0.02 g
0.001 g
2 kg
0.2 g
5 lb
0.04 g
0.002 g
5000 g
0.5 g
10 lb
0.1 g
0.005 g
10 kg
1 g
20 lb
0.2 g
0.01 g
20 kg
2 g
50 lb
0.4 g
0.02 g
5 g
100 lb
0.0001 lb 0.0002 lb 0.0005 lb 0.001 lb 0.002 lb 0.005 lb 0.01 lb
10 pieces normal – 5, 25, 50, 100 or random number, user selectable
50 kg
1 g
0.05 g
Non-linearity
Repeatability
Span Drift
Operating Temp.
Display
Display Update
Interface
Power
Platform Size
Dimensions
(W) x (D) x (H)
Weight (approx.)
Calibration Weight
Accessories
±0.05 g ±0.1 g ±0.2 g ±0.5 g
0.05 g 0.1 g 0.2 g 0.5 g
±1 g
1 g
±2 g
2 g
±5 g
5 g
0.002%/°C (5°C~35°C) typ.
-10°C to 40°C/14°F to 104°F, less than 85%R.H. (No Condensation)
7 segment / 5x7 dot VFD
Approximately 10 times per second
RS-232C (1ch.) standard, Maximum 3 ch. with optional interface
AC adapter or Optional Ni-MH Battery Pack
Battery Operating Time: Approx. 10 hours (main scale only)
205 x 152 (mm) 315 x 270 (mm)
8.1 x 6.0 (inches)
330 x 462 x 107 mm
13.0 x 18.2 x 4.2 inches
12.4 x 10.6 (inches)
330 x 462 x 117 mm
13.0 x 18.2 x 4.6 inches
5.5 kg
500 g ±
0.01 g
5.5 kg
1 kg ±
0.02 g
6.5 kg
2 kg ±
0.05 g
6.7 kg 6.7 kg 6.7 kg 7.5 kg
5kg±0.1g 10kg±0.2g 20kg±0.5g 50kg±1g
This manual, AC adapter
MODEL
Capacity g
Resolution g
Capacity lb
Resolution lb
Sample Size
Min. Unit Weight
(Normal mode)
Min. Unit Weight
(Fine mode)
Non-linearity
Repeatability
Span Drift
Operating Temp.
Display
Display Update
Interface
Power
Platform Size
Dimensions
(W) x (D) x (H)
Weight (approx.)
Calibration Weight
Accessories
FC-500S
i
500 g
0.02 g
1 lb
0.00005 lb
FC-5000S
i
5000 g
0.2 g
10 lb
0.0005 lb
10 pieces normal – 5, 25, 50, 100 or random number, user selectable
0.001 g 0.01 g
0.00005 g 0.0005 g
±0.02 g ±0.2 g
0.02 g 0.2 g
0.001%/°C (5°C~35°C) typ.
5°C to 40°C/41°F to 104°F, less than 85%R.H. (No Condensation)
7 segment / 5x7 dot VFD
Approximately 10 times per second
RS-232C (1ch.) standard, Maximum 3 ch. with optional interface
AC adapter or Optional Ni-MH Battery Pack
Battery Operating Time: Approx. 10 hours (main scale only)
128 x 128 (mm)/ 5.0 x 5.0 inches 165 x 165 (mm) / 6.5 x 6.5 inches
330 x 462 x 106 mm
13.0 x 18.2 x 4.2 inches
7.6 kg
500 g ± 0.005 g
This manual, AC adapter
8.1 kg
5000 g ± 0.05 g
Options
OP-01 Bar Code Reader
OP-02 Ni-MH Battery Pack
OP-03 RS-232C x 2ch. (Confirm the following note)
OP-04 RS-232C x 1ch. + Comparator Relay output (Confirm the following note)
OP-05 Remote Scale Interface
Note OP-03 and OP-04 can not be installed at the same time.
14-1. Dimensions
300
205
FC–2000
i
FC–5000
i
FC–10K
i
FC–20K
i
FC–50K
i
282
152
330
285
107
282
437
462
280
330 285
FC–500
i
FC-1000
i
437
462
165
282
165
117
106
128
FC–5000S
i
282
128
330 285
106
330 285
FC–500S
i
437
462
437
462
15. GRAVITY ACCELERATION MAP
Values of gravity at various locations
Amsterdam
Athens
Auckland, NZ
Bangkok
Birmingham
Brussels
Buenos Aires
Calcutta
Cape Town
Chicago
9.813 m/s
2
9.807 m/s
2
9.799 m/s
2
9.783 m/s
2
9.813 m/s
2
9.811 m/s
2
9.797 m/s
2
9.788 m/s
2
9.796 m/s
2
9.803 m/s
2
Copenhagen
Cyprus
Djakarta
Frankfurt
Los Angeles
Madrid
9.815 m/s
2
9.797 m/s
2
9.781 m/s
2
9.810 m/s
2
Glasgow
Havana
Helsinki
9.816 m/s
2
9.788 m/s
2
9.819 m/s
2
9.793 m/s
2
Kuwait
Lisbon 9.801 m/s
2
London (Greenwich) 9.812 m/s
2
9.796 m/s
2
9.800 m/s
2
Manila
Melbourne
Mexico City
Milan
New York
Oslo
Ottawa
Paris
Rio de Janeiro
Rome
San Francisco
Singapore
Stockholm
Sydney
Taichung
Taiwan
Taipei
Tokyo
Vancouver, BC
Washington, DC
Wellington, NZ
Zurich
9.784 m/s
2
2
9.800 m/s
2
9.779 m/s
9.806 m/s
2
9.802 m/s
2
9.819 m/s
2
9.806 m/s
2
9.809 m/s
2
9.788 m/s
2
9.803 m/s
2
9.800 m/s
2
9.781 m/s
2
9.818 m/s
2
9.797 m/s
2
9.789 m/s
2
9.788 m/s
2
9.790 m/s
2
9.798 m/s
2
9.809 m/s
2
9.801 m/s
2
9.803 m/s
2
9.807 m/s
2
World map
16. INDEX
-------
........................10, 11, 13, 14, 15 key ................................9, 27, 29, 42
~
, Space code..........................52, 59, 60
,Standby indicator .............................7
AC adapter ......................................4, 5, 6
AC adapter jack ......................................5
ACAI .........................................38, 44, 45
ACAI indicator.........................................9
Accessories ....................................72, 73
AD-8121....................................41, 48, 49
Add .......................................................36
Add Sample
....................13, 14, 15, 16
Alphanumeric character table ...............24
Bar code
Bar code reader ...........................55, 61
Check digit ...................................57, 62
Codabar (NW-7) ..........................57, 62
Code 39 .......................................57, 62
EAN/JAN-13 ................................57, 62
EAN/JAN-8 ..................................57, 62
Identification code ..............................56
Interleaved 2 of 5 .........................57, 62
PF command .....................................58
UFC (Universal Flex Coms) ...............58
UPC-A..........................................57, 62
Battery ..................................................64
Baud rate ..................................41, 46, 48
Best conditions .......................................5
C key.......................................................9
Cal
........................................................31
Cal 0
....................................................32
Cal f
....................................................32
Calibration
..............................31, 71
Calibration End
............................32
Calibration switch..............................5, 31
Calibration weight .....................32, 72, 73
Capacity..........................................72, 73
Capital letter....................................23, 24
Comparator function .............................28
Comparator limit ................................25
Comparator result ..............................40
Lower limit..............................28, 29, 40
Upper limit..............................28, 29, 40
Count data ............................................26
Counting ...............................................12
Data format .........................41, 46, 48, 52
Data length ...........................................41
Date and time .......................................47
Dimensions .....................................72, 73
Display off ...............................................5
Earth terminal .........................................5
ENTER key .............................................9
err 1
....................................................10
Error code .............................................51
f-00
......................................................34
F-Function ............................................34
Gravity acceleration ..................32, 33, 75
HI
...................................................28, 40
Humidity..................................................6
id
......................................................8, 18 id-------
............................................22
ID key ...............................................9, 25
ID number .................................................
......... 8, 9, 12, 18, 21, 22, 23, 25, 47, 61 id-all
..................................................22
Interface..............................46, 66, 67, 68
Item code ..................................21, 23, 25
KEYBOARD TARE key...........................9
LO
...................................................28, 40 lo bat
..................................................64
lo ut
..............................................16, 17
Load cell ...................................68, 69, 71
Lowercase letter .............................23, 24
M- key .........................................9, 27, 42
M+ (A/a) key ...................................23, 24
M+ indicator ......................................9, 26
M+ key ..............................................9, 26
Memory function .......................26, 37, 38
Minimum unit weight .............................38
Mode
Auto-print mode A..............................47
Auto-print mode B..............................47
Calibration..........................................31
Command mode ................................50
Comparator mode..............................39
Data output mode ........................40, 47
Key mode...........................................47
Normal operation ...............................36
Operating mode .............................7, 36
Simple operation ................................36
Simple operation mode ........................7
Standby mode......................................7
Stream mode .....................................47
Net weight.............................................19
no id
....................................................18
Numerical keys ...........................9, 23, 24
OK
..................................................28, 40
OP-01 ...................................................61
OP-02 ...................................................64
OP-03 ...................................................66
OP-04 ...................................................67
OP-05....................................................68
Operating mode ....................................36
Operating temperature................6, 72, 73
Parity...............................................41, 46 pcs
................... 13, 14, 15, 16, 44, 45, 47
Power..............................................72, 73
PRINT key ........................................9, 24
Printer .............................................48, 49
Remote scale...... 5, 36, 37, 44, 68, 69, 70
REMOTE SCALE key .............................9
RESET key .......................................9, 12
Resolution.......................................72, 73
RS-232C ...................5, 46, 55, 61, 66, 67
SAMPLE key.............9, 13, 14, 15, 16, 17
Sample size ...... 13, 14, 15, 16, 17, 72, 73
SAMPLE TOO LIGHT indicator ..............9
Second..................................................30
Self-check ...............................................5
Signal input ...........................................42
Slot
OP-02 ............................................5, 64
OP-03/04 .......................................5, 66
Remote scale......................................68
Span calibration ....................................32
Spirit level ...............................................5
Stable detection speed .........................39
STABLE indicator ...................................9
Standby indicator ..............................7, 10
STANDBY/OPERATE key ........5, 7, 9, 64
Start bit .................................................46
Stop bit .................................................46
STORE UNIT WEIGHT key ......................
..................................... 9, 21, 22, 23, 24
TARE ENTERED indicator .........9, 11, 19
TARE key ...................................9, 11, 19
Tare operation ......................................19
Tare weight ...........................................25
Terminator ............................................46
Time and date.................................30, 43
Total count ......................................25, 27
TOTAL indicator................................9, 27
TOTAL key............................9, 24, 26, 27
Total weight ..........................................13
Unit .....................................................7, 8 kg...................................................7, 36
Kilogram ........................................7, 36 lb ....................................................7, 36
Pounds ..........................................7, 36
Weighting unit ................................7, 36
Unit weight ................................................
8, 12, 13, 14, 15, 16, 17, 18, 21, 22, 25,
37, 44, 45, 47, 72, 73
Minimum unit weight ..........................38
UW(g)
......... 8, 9, 13, 14, 18, 21, 44, 45
UW(lb)
...............................................7
Warm up .......................................5, 6, 31
Weighing pan..........................................5
Weight ............................................72, 73
Zero calibration .....................................32
ZERO indicator .................................9, 10
ZERO key .........................................9, 10
Zero tracking...................................10, 39
MEMO
MEMO
------key
~
, Space code
,Standby indicator
advertisement
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Related manuals
advertisement
Table of contents
- 5 1. INTRODUCTION
- 5 1-1. Introduction
- 6 1-2. Unpacking
- 7 Setting Up Your Scale
- 9 Standby and Operating Mode
- 9 Simple Operation Mode
- 9 kg or lb Weighing Units
- 10 Last Unit Weight Used Feature
- 12 3-1. Basic Operations
- 14 To Start Counting
- 20 Unit Weight By ID Number
- 21 Using the KEYBOARD TARE Key
- 22 4-2. To Clear TARE
- 23 Store Unit Weight by ID Number
- 24 Clearing A Stored Unit Weight
- 25 Store Item Code by ID Number
- 27 Unit Weight, Tare, Comparator Limits & Total Count Stored
- 28 The M+ Memory Function
- 29 6-2. Viewing the M+ Total
- 29 The M- Function
- 33 9. CALIBRATION