Epson XK3190-A1+P User Manual

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XK3190-A1

Weighing Indicator

Attention:

USER’ S GUIDE

Please read this User’s Guide carefully when you use
the indicator!

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1 . Specifications
2 . Installation

2.1 Front & Back View of Indicator

2.2 Keyboard Function

2.3 Connecting Loadcell to Indicator

3. Calibration

4. Operating Instructions

4.1 Starting and Starting auto zero setting at turning on

4.2 Manual Zero Setting (Semi-automatically setting zero )

4.3 Tare Function

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4.4 Connecting Scoreboard to Indicator

4.5 Connecting Pinter to Indicator

4.6 Connecting Serial Communication port to Indicator

4.7 Setting of Time and Date

4.8 Storing, Checking and Deleting of Data

4.9 insufficient voltage indication

5. Maintenance and Announcements

6. Errors and Information

Important Notes!!!

1． Printer interface invalid due to the built-in micro-printer (optional supply upon
special requirement)
2． The function key is used as the paper roll key, it works upon pressing and stops
working upon releasing.
3． “5” should be chosen as printer parameter TypE
4． There is only one print format - linked bill format when micro-printer used.
5． The discount ratio printer option must be off while using:

“odE=0”
“dct=0”

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1 Specification

1 Model XK3190-A1
2 Sample rated 5~25 times / sec

3 Load cell sensitivity 1~ 2mv/v
4 Division 1/2/5/10/20/50/100 optional
5 Display 7-bits LED digital display 0.56” in character

height and 7 status indicating.

6 Clock can display day/month/year and

second/minute/hour

7 Scoreboard display interface Using serial output method :

+

current loop signal, transmission distance ≤50m
RS323 signal, transmission distance ≤30m

8 Communication port RS-232C

Baud rate: 600/1200/2400/4800/9600 optional

9 Printing Port Standard parallel output port, can connect with

Tpup16 micro-printer, TM800,LX-300, KXP－
1121and LQ-1600k wide-line printer.

10 Power Supply

11 Operating Temperature and

Relative Humidity

12 Storage /transportation

Temperature

13 Fuse 500mA

AC 187～242V ; 49~50Hz
The built-in repair-proof storage cell; 12V,7AH

0～40℃, ≤ 90% RH

－20 ～50℃

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2. Installation

2.1 Front & Back View of the Indicator

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UNIT:KG

MONEY PRICE AUTO DATE TIME TARE STABLE

(Graph 2-1) Front View of Indicator

* ACCU - accumulating FUN- function CALB – Calibrating

( 25 ) pins (15 ) pins ( 9) pins

Power source Fuse

Print output port RS-232C; Scoreboard output port Loadcell input port

（Nameplate）

1

ACCU2 PRE-T3 FUN TARE ENTER

4

CLEAR5 CHECK6 DATE 0 STORE WEIGH

7

SET

PRINT

8

CALB9 TIME PRINT ZERO

(Graph 2-2) Back View of the Indicator

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2.2 Keyboard Function

Key Function
1 [ACCU],[ UNIT

PRICE]

2 In calibration mode, pressing [PRE-TARE/2] , can input

3 [DELETE/4] In calibration mode, pressing [DELETE/4], can input digital

4 [CHECK/5] In calibration mode, pressing [CHECK/5], can input digital

5 [DATE/6] In calibration mode, pressing [DATE/6] can input digital

6 [SET PRINT] In calibration mode, pressing [SET PRINT] can input digital

7 [CALB/8] In calibration mode, it is calibration function key ; In other

8 [TIME/9] In calibration mode, pressing [TIME/9] can input digital key

9 [STORE/0] In calibration mode, pressing [STORE/0] can input digital

10 [ACCU/1],[ UNIT

PRICE/3]

11 In weighing mode, when stable sign appears, press [TARE] key to clear tare. If

indicator displays zero, the weight value is net weight.

12 In weighing mode, when stable sign appeares, press [ZERO] key to clear limited

weight on the platform. You can set zero range , generally the zero range is 4% of full

scale.
13 In weighing mode, when stable sign appears, press [PRINT] key to print weight data.
14 In calibration mode, press [ENTER] key to confirm that parameters have been inputted

and will enter to next parameter setting automatically. When indicator is in date, time,

printing and communication setting mode, push [ENTER] key to confirm that

parameters have been inputted.

No meaning

digital key “2”; In weighing mode, the key is used for
presetting tare.

key “4”; In weighing mode, it is deleting function key , more
details shown in episode “deleting”.

key “5”; In weighing mode, it is checking function key ,
more details shown in episode “checking”.

key “6” ;In weighing mode, it is date function key , more
details shown in episode “setting of time and date”.

key “7” ;In weighing mode, it is printing setup key , more
details shown in episode “printing function”.

operation modes it only inputs digital key “8”

“9” ;In weighing mode, it is time function key , more details
shown in episode “setting of time and date”.

key “0” ;In weighing mode, it is storing function key , more
details shown in episode “storing data”.
In calibration mode, pressing [ACCU/1] or [ UNIT
PRICE/3] can input digital key, “1”; “3”;In weighing mode,
there are no meaning.

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15 In calibration or parameters setting mode, pressing [weigh], it will exit from original

calibration or setting mode and return to weighing mode.

2.3 Connecting Loadcell to Indicator

1. The 9-pin socket is used for the link-up of loadcell, which has been clearly shown
in the graph 2-3.

2. The 4-pin shielded cable is used, +S must be short connected with +E, -S and -E. The

indicator does not have the function of long distance compensation.

3. ▲ ！Indicator must be reliably connect ed to Loadcell and shielded-cable of

loadcell must be reliably connect ed to underground . If indicator is
powered on, the user should not insert or withdraw the plug in order to
protect the indicator and loadcell.

4. ▲ ！Sensor and indicator are static sensitive devices; you must adopt anti-static

measures. In order to protect the operator ,indicator, and relevant devices,
you should install lightning rod in the thunderstorm frenquently
happening area.

-E

-S

Shield

1

23

6

7

45

8

9

+E

+S

-IN +IN

Terminal of Indicator Terminal of Sensor

6 +E

7 +S

2 -S

1 -E

9 +IN

8 -IN

5 Shi eld

+

_

Bridge of Power Supply

Signal Output

(Graph 3-2 ) Connection of the load cell

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3. Calibration

According to the Graph 2-3, connecting Indicator and loadcell, and the indicator enters
weighing mode.

1. Connecting calibration jumper to the 15- pin socket on the indicator back panel.

(There is a 15-pin plug in the packing carton with its 14-pin short connected with
15-pin. )

2. According to table 4-3, carry out calibration step by step.

Table 4 - 1

step Operation Display Explanation

1 press [ CALB] after calibration jumper is inserted
2

press [1 ] [0 ]
press [Enter ]

3

press [ 0 ]
press [ Enter ]

4

press [ 2 ] [ 3 ]
press [ Enter ]

[E ** ]
[E 10 ]

[ dc * ]
[ dc 0 ]

[pon XY ]
[ pon 23 ]

Enter division value selecting
1/2/5/10/20/50/100/200
Example: 10
Enter decimal point (0 -4)
Example: without Decimal point 0

Enter Zero range
X: zero set range (1-5) it stands for
2% 4% 10% 20% 100% of F.S
Y: power on Zero set range it
Stands for (1-5)
2% 4% 10% 20% 100% of F.S
example 23

5

press [ 3 ] [ 0 ]
[ 0 ] [ 9 ] [ 0 ]

6 press [ Enter ] Example: 30090
7

[F ***** ]

[ F 30090 ]

[ noLoAdn] Confirming Zero position. At this time

Enter overload warning value when
inputting F value,and re-pressing
[ Enter ] key, the calibration will begin.
directly pressing [ Enter ],will enter into
the tenth step. If pressing [ weighting ],
Indicator will return to weighing status.

there is no load on the scale.Pressing
[Input] when the stable light is on.

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step Operation Display Explanation

8

press [ 1 ] [ 5 ]
[ 0 ] [0 ]
press [ Enter ]

9 press [ Enter ] [ noLoAd ] Confirming zero position again.

10

press [2] [0]
[0][0] [0]
press [ Enter ]

11 press [ Enter ]

press [ Enter ]
press [ Enter ]

12

press [ 1 ]
press [ Enter ]

[ A LoAd1]
[ d 1500 ]

[ ALoAd2 ]

[ 20000 ]

[H xxxxxx ]
[L yyyyy ]
[td zzzz ]

[ Adr ** ]
[ Adr 01 ]

Loading weight ≥ 5% Max.。
Example: 1500
After stable light is on, press [ Enter ]
key.

Reloading weight on scale ≥50% Max.
It is better that this loading weight is
near the F.S. Example: 20000
After stable light is on, press [ Enter ]
key.
H. L. td indicating three calibrating
coefficients . Recording them for spare
use.

communication address (01-26)
Example: 1

13

press [ 1 ]
press [ Enter ]

14

press [ 0 ]
press [ Enter ]

15 Weighing

[ bt * ]

[ bt 1 ]

[ tF * ]
[ tF 0 ]

mode

Serial communication baud rate ( 0-4).
It respectively represents baud rate: 600,
1200, 2400, 4800, 9600.
Example: 1 (1200)

Serial communication Mode:
0- Continuous transmitting mode,
no receiving.
1- Command response mode,
Example: 0
Calibration End.

Note: At step 6, 7, 8, 9, if press [ Weighing ] key, you can enter next step.

H. L. td indicating three calibrating coefficients .Recording them for spare use.

CAUTION!
When calibration is over, the calibration jumper must be pulled

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out.

4. . Operating Instructions

4.1 Power on

1 When using AC power , power on , setting the ship- form switch at the back cover

of the indicator on “1” ; If using DC power , setting the ship- form switch at the
back cover of indicator on “1”, then pressing the recover switch, the indicator will
perform “999999 - 000000 ” selfchecking. And then enter weighing mode. Or
after pressing any key, self-checking stops and enters weighing mode
automatically.

2 When power on, if loading weight on the plat form of the scale deviates from the

zero point, but still within zero set range, Then indicator will set zero at power on
automatically. If the loading weight is over the zero range, you should adjust zero
point of scale or recalibrate and reset the indicator.

4.2 Manual zero setting:

1 In weighing mode, press [ Zero ] key. Indicator will perform zero-setting.
2 If displayed value deviates from zero point, but still within zero-range, pressing

[ Zero ] key is available. Otherwise, [ Zero ] key is invalid. (In this status, please
recalibrate or reset zero parameters)

3 Only when stability sign lamp is on, you are allowed to set zero operation.

4.3 Tare function
1 Normal Tare :
When Indicator at weighing status, and displaying positive weight stably.,press

[ Tare ] key, indicator will deduct the displayed weight value as tare weight..
Then indicator displays net weight as “ 0 ”. And Tare sign Lamp is on.
2 Preset tare:

When Indicator at weighing status, press [ Pre Tare ] key, indicator will display
[ P ***** ], Using digital key entering known tare weight value, then press
[ Enter ] key, the pre-tare is finished. At this time indicator displays net weight

and tare sign lamp is lighted.

RS

232C

RXD TXD GND

1

2

3

4

56

7

8

9 1011121314

+OUT -OUT(Connecting scoreboard)

Calibration contr ol

15

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(Graph 4-1) Serial Communication port and score display port

4.4 Connecting Scoreboard to Indicator

1. The display interface of scoreboard is 15-pin socket, which has been clearly shown

in the Graph 4-1.

2. The scoreboard signal is 20mA continuous current loop, outputting in binary code, the baud

rate is 600.

4.5 Connecting Printer to Indicator

1. The print port adopts parallel output and 25-pin connecting socket, which has been
clearly shown in the Graph 4-3.

ST D0 D1 D2 D3 D4 D5 D6 D7

BUSY

123

14 15 16 17 18 19 20 21 22 23 24 25

5678910111213

4

2. Printing notes:

▲ You must set the printer before you use it.
▲ You must connect the indicator and the printer correctly. The wrong

connection will destroy indicator output interface or printer input interface, and
may even destroy the indicator or printer.

GND

▲ Turning on the printer as following: connecting the line correctly first, turning on

the indicator power, and turning on the printer power finally.

Turning off the printer as following: turning off the printer power first, and then

turning off the indicator power, cutting off the line finally.

Wrong procedure may destroy the indicator or printer.

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▲ The printer must be compatible to the indicator, please choose the recommended

printer.

▲ The printer GND can not be connected to the power GND, otherwise the indicator

or printer will be destroyed.

3. Set print parameters

step operating display Explanation

1 press [PRN Set ]

press [ 9 ] [ 7 ]
press [ Enter ]

2

press [ 0 ]
press [ Enter ]

3

press [ 2 ]
press [ Enter ]

4

press [ 0 ]
press [ Enter ]

[ P 00 ]
[ P 97 ]

[ Auto 1]

[ Auto 0 ]

[ type 0 ]

[ type 2 ]

[ H-u 1 ]

[ H-u 0 ]

Enter printing setup
Input password 97

Auto/ manual print
0: manual
1: Auto
Example: 0

Selecting type of the printer.
0: print inhibited
1: TPup16TP (Eng. mode)
2: TIMES TM-800
3 National KX-P1121
4: EPSON LQ-1600K
Example: 2
Selecting print format
0: Record format
1: document format
Example:0

5

press [ 3 ]
press [ Enter ]

6

press [ 1 ][ 0 ][ 0 ]
press [ Enter ]

7

Press[0]
Press[Enter]

8 Press[0] [ dct *] 0: doesn’t use discount

[ Arr 1 ]

[ Arr 3 ]

[ L 000.10 ]

[ L001.00 ]

[ ode *]
[ ode ]

selecting document numbers
(1-3)
Example: 3

Selecting Auto-print lower
Limit.
L: must> 10e
Example: 1:00
0: doesn’t choose blank

filling mode

1: choose blank filling print

mode

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Press[Enter] [ dct ] 1: use discount

End

Note:

You can use discount only when the blank filling mode is selected.

4. print and print format

Press [PRINT] key, you can print required weighing data according to print setting.

Record Format:

Weight Bill

Date 97-01-31

NO. Time Gross ( kg ) Tare ( kg ) Net ( kg ) Accumulating(kg)
0001 08.56.16 299.98 1 298.98 298.98
0002 09.00.09 299.98 2 297.98 596.96
0003 09.00.28 299.98 3 296.98 893.94

Document Format

Weight Bill

Blank filling format (

SERIAL No. 123
DATE 1999-05-28
TIME 12.35.28
VEHICLE No.

NO. : 007

Date : 96-09-25

Time : 09.03.21

Gross : 299.98 ( kg )

Tare : 9.98 ( kg )

Net : 290.00 ( kg )

Total : 2059.90 ( kg )

Compelet printing only in five sconds)

WEIGHT BILL

Fist bill for operator

CARGO No.
GROSS 1580 kg
TARE 80 kg
DISCOUNT 10 %
NET 1350 kg

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REMARK

★ If setting the odE parameter to 1, you can perform the blank filling priting, at

this time the other priting formats are invalid (Records format and document
format are invalid).
Method: pushing [print] key, if dct parameter is set to 1, it will display [BFL
**], inputting the discount rate and pushing [Input], it will print out the blank
filling report: if dct parameter is set to 0, it will print out the blank filling
report directly, ‘discount rate’ will be in blank.

★ The XK3190-A1 does not have the functions of truck No. and Article No.

administration. The blank filling format is in blank.

★ In blank filling format, the indicator can print out the report in 1 or 3 fold.
★ The user can contact with the local dealer if the user wants the customized blank

filling format.

4.6 Connecting Serial Communication port to Indicator

1. Communication port adopts 15 pins socket which was shared with scoreboard. It

was shown on page 9 of User’s Guide for A1,the pin 6(RXD) is used to receive the
signal from the computer, the pin 7(TXD) is used to output the signal to computer.

2. Communication port adopts RS-232C, and all data are ASCII codes. Every group of

data consists of ten bits binary codes, The first bit is start bit. The tenth bit is stop

bit, the other eight bits are data bits.
Mode of communication:
(1) Continues output mode
Indicator transmits current data of weight value (Gross or net weight).

(2). Command mode
Every time Indicator receives command form the master computer, it transmits one
frame data. Master computer transmits command to indicator, the indicator responses and
transmits one frame weight value data.

3. Setting communication parameters

(1) Communication parameters

Communication parameters consist of communication address, baud rate and

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communication mode parameters.

(2) The sequence of parameters setting as following:

Connecting the loadcell , the indicator enters into working mode which is shown in

the Graph 2-3.
Insert the setting jumper into 15-pin socket at the back of indicator. (There is a 15-pin
plug in the packing carton with its 14-pin shorte connected with 15-pin. ).
Setup communication parameters as following:

Step Operation Display Explanation
1 Press[CALB] Plug in calibration jumper
2

Press[Enter]

3

Press[Enter]

4

Press[Enter]

5

Press[Enter]

6

Press[Enter]
Press[Enter]

7

Press[1]
Press[Enter]

8

[E **] Don’t change this data and enter next step.

[dc **] Don’t change this data and enter next step.

[Pon **] Don’t change this data and enter next step.

[F
******]
[H *****]
[L *****]
[td **.**]

[A d r **]
[A d r01 ]

[bt *]

Don’t change this data and enter next step.

Don’t change this data and enter next step.

Communication address (01~26)
Example: 1

Baud rate of serial communication (0~4)
Press[1]
Press[Enter]

9

Press[0]
Press[Enter]

10 Weighing

( Please note the explanation. Don’t change other parameters setting carelessly )

4.7 Date, Time Set-up

（1） Under weighing status of the indicator, press [ Date ] key, and date sign lamp is

lighted. Indicator display original data at this time. If it is correct, then press

[bt 1]
[tF *]
[tF 0]

mode

which represent baud rate of

600,1200,2400,4800,9600

Serial communication mode:

0- Continous transmitting mode,

unreceiving

1- command responding mode

End of communication parameters setting

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[ Enter] key or [weighing] key to exit. If it is incorrect, using digital keys enters
new date , then press [ Enter ] key.

（2） Under weighing status of the indicator, press [ Time ] key, and Time sign lamp is

lighted. Indicator display original Time data at this time. If it is correct, then press
[ Enter ] key or the [ weighing ] key to exit. If it is incorrect, using digital keys
enters new time data, then press [ Enter ] key.

4.8 Weight data store, check and clear
1 Data storing.

（1） After weighing display becoming stable, press [ Store ] key, At this time,

indicator will store weight value store into internal memory and accumulats it.

（2） At the same time, displaying [ LoAd ] for fifteen seconds to prompt operator.
（3） Negative or zero weight value can’t be stored.
（4） Indicator can store:total accumulated times. total accumulated weight value, and

200 groups of weighing records.

（5） When print control “Auto” is set to “ 1”, system not only auto-prints, but also

auto- stories and auto-accumulates weighing data.

2 Checking

Press [ Check ] key, to check the weight record data in internal memory of the Indicator.
Including: Total accumulating times, Total accumulating weight value, and every group of
weighing record.
Operating as following:

Step Operating Display Explanation

1 press [ Check ]

press [ Check ]

press [ Check ]

2 press [ Check ]

press [ Check ]

[ **** ]
[ H *** ]

[L ***** ]

[no 001]

[ dt **** ]

n=Total accumulating times
H=Total accumulating weight High 3
bits
L=Total accumulating
weight low 5 bits
First group of weighing
sign symbols record

Date (M.D)
press [ Check ]
press [ Check ]
press [ Check ]
press [ Check ]

press [ check ]

………

☆ Checking ends, Indicator auto-returns to weighing mode, and using [weighing ] key,

you can quit checking mode.

[ t **** ]

[A *****]

[P ***** ]

[n ******]

[no 002 ]

………

Time (H.m)

Gross

Tare

Net

The second group of weighing sigh

symbols record

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3 Clear

Press [ clear ] key, can clean accumulating weight value or stored data.

Step Operating Display Explanation

1 press [ Clear ]
2

press [ 1 ]
[ sure 1 ]

End

4.9 Insufficient voltage indicating

When the storage cell voltage is insufficient, the insufficient voltage lamp is on. At
this time the indicator will twinkle.You should set the ship-like switch at the back
cover of indicator to “0” to protect the storage cell. Continual using will result in the
further decreasing of the storage cell voltage, in this case the indicator will cut off the
storage cell supply.

[ sure 0 ]

[ sure 1 ]

Selecting clear/not clear
0: no
1: yes
Example: 1

5. Maintenance and Announcements

5.1 To guarantee the clarity and using life, the indicator shouldn’t be placed directly under

sunshine and should be placed in the plain space .

5.2 The indicator should avoid dust pollution, vibration and moisture.

5.3 Loadcell should connect with indicator reliably, and the system should be connected into

ground properly. The indicator must be detected from high electrical fields.

▲ ！In order to protect the operator ,indicator, and relevant device, you should

mount lightning rod in thunderstorm frequently happening area.

▲ ！Loadcell and indicator are static sensitive devices, you must adopt anti-

static measures.

5.4 It is strictly forbidden to clean the case of indicator with intensive solvents (for example:

benzene and nitro oils)

5.5 Liquid and electrical conducting particles should not poured onto the indicator, otherwise the

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electronic components will be damaged and electric shock is likely to happen.

5.6 You should cut off power supply of indicator and relevant device before you pull-in and out

the connecting line of indicator and external device.

▲ ！You must cut off power supply of the indicator , before you plug the

connecting line of the loadcell in and out.

▲ ！You must cut off power supply of the indicator and the printer, before you

plug in connecting line of the printer.

▲ ！You must cut off power supply of the indicator and the scoreboard, before

you plug connecting line of the scoreboard in and out.

▲ ！You must cut off power supply of the indicator and the master computer,

before you pull connecting line of communication in and out.

▲ ！You must cut off power supply of the indicator and external connecting

system, before you pull connecting line of control output in and out.

5.7 The user should return this indicator to our company for repair. Non-weighing

manufacturer should not repair it, or by yourself, otherwise further destruction may
occur.

5.8 From invoice date, the indicator has a total one-year free repair period. If any

non-artificially obstacle about the indicator occurs while under correct using conditions
within the period, the user is allowed to send the product with its guarantee card (of the
correct number) back to our corporation for free repair.

5.9 The indicator shouldn’t be taken apart, otherwise free guarantee will be cancelled.

6. Errors and Information

6.1 Normal information

1 ……… Wait a moment, and this is a normal display.
2 Prnt Wait a moment, the data are being transmitted between indicator and
printer.
3 LoAd Storing data, it will indicate for not less than 2 seconds to prompt
the operator.
4 --OF-- No meaning.

6.2 Error information indicating

1 Err 03 Overload warning
2 Err 10 Zero or Negative weight value, can’t be stored.
3 Err 11 dissatisfing demands of document format , or printing set is wrong.
4 Err 12 dissatisfing demands of the printer set.
5 Err 16 Date or Time is illegal.

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6.3 Wrong setting information indicating

1 Err 13 Wrong setting of the division value .
2 Err 14 Decimal point must be less than 5, please reset the decimal bit.
3 Err 15 Overload warning must be > 100, please reset it.
Err 17 Enter new data which should be less than 65000.

6.4 Wrong connection information indicating

1 Err P It means the printer has trouble or is wrongly connected. push any

key to quit.

2 Err 01 It means the load cell signal line is wrongly connected, or its signal is
negative.

（1） If this scale is under usage , then can be sure : the load cell connecting wires

had troubles, or load cell has been damaged.

（2） If this scale hasn’t been calibrated, the user should check the load cell’s

connective wires first. ( Whether the signal line has been negatively
connected). If the loadcell cable is corretly linked, but the indicator still
indicates Err01 , the problem can then be solved by short connecting pin 4
and pin 6.

3 Err 02 It means the load cell’s wires are wrongly linked, or the signal value
exceeds the A/D converting range.

（1） If this scale is under usage, then can be sure: the load cell’s connective wires

had troubles, or load cell is damaged.

（2） If this scale hasn’t been calibrated, please check as following:

a) Carefully check the load cell’s connective wires is right or not.
b) Check if load cell is suitable or not: It should satisfy the following terms: the

“scale’s dead load + scale’s rated capacity ” must be less than the load cell’s
rated capacity.

c) This may happen in case that there are more than one load cell in the weighing

system.

d) Short connecting the pin 4 and pin 1 on the socket of the load cell.

6.5 Error of components and solving method

1 Err 18 Key board has problems, It will indicates for ten seconds, then
indicator enters weighing mode.
2 Err 20 The data is partly lost in RAM. Operator should put in the calibration
plug to self-check, and then pull it out.

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3 Err 21 Calibrating data have been lost in RAM and EPROM, Operator must
put
in the calibration plug, then reenter the original calibration data, turn
on the indicator again or re-calibrate it.
4 Err 22 EPROM has been damaged.
5 Err 23 RAM has been damaged.

6.6 Other information indicating

1. Err 24 In normal operation, you must pull off the calibration jumper.The
indicator is under normal operation, and the calibration jumper shouldn’t be put in. If
calibration is needed, the calibration jumper should be put in at set-up. You should pull
out the calibration jump when turning off the indicator. If the indicator finds that the
calibration jump was inserted when turning on, it will display Err 24 for 6 seconds
to
prompt the operator.

2 Err 25 Illegal software, or E2PROM was damaged

.
12 groups of date constitutes of a frame
Date No. in a frame explanation
1 02 (X ON) , start
2 + or - ,
3 Weight date
4 Weight date
5 Weight date
6 Weight date
7 Weight date
8 Weight date
9 Decimal position, from right to left (0 – 4)
10 Checking XRL, higher 4 bits
11 Checking XRL, lower 4 bits
12 03 (X OFF) END

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The frame from the computer consists of 6 data

explanation
1 02 (X ON) start
2 A ~ Z address

3 A: Shaking hands

B: asking GW
C: asking tare
D: asking NW

E: asking accumulated times and accumulated weight
4 XRL checking
5 XRL checking
6 03 (X OFF) end

XRL = 2 ⊕3

+P

X K 3 1 9 0 - A 1

The explanation of data No : 4 - n
Command A No data Each frame consists of 6 groups of data

Command B GW: + / -

GW data (6 bits)
.
.
.
GW data
Decimal position

Command C Tare: + / -

Tare data
.
.
.
Tare data
Decimal position

Each frame consists of 14 groups of data

Each frame consists of 14 groups of data

Command D NW: + / -

NW data
.
.
.
NW data
Decimal position

Each frame consists of 14 groups of data

X K 3 1 9 0 - A 1

+P

Command E Accumulated times and weigh

Accumulated times (4 bits )
.
.
.
, (comma) separation mark
Accumulated weight (10 bits )
.
.
Decimal position

Each frame consists of 22 groups of data