Rice Lake DC-190, Digi DC-190 Operation Manual

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DC-190

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73352

CONTENT

1. General Specification 1

2. Overall Dimension

2.1 DC 190 Indicator 2

2.2 S-X Platform 2

2.3 Pole Type 3

2.4 Bench Type 4

3. Keysheet And Display Layout 5

4. Initial Set Up

4.1 Set Up

4.1.1. DC 190 Bench Type Set Up 7

4.1.2. DC 190 Pole Type Set Up 8

4.2 Location of Span Switch and Connector 9

4.3 Default SPEC 9

4.4 Customer Specification Setting 10

4.5 Weigh & Measure Specification Setting 10

4.6 Internal Count and A / D Count 11

4.7 Calibration 11

5. Specification List

5.1 Software Version 12

5.2 Customer Specification 13

5.3 Weight & Measure Specification 15

5.4 Multi-drop Host Communication Specification 19

6. PC Connection

6.1 General Specification 20

6.2 DC 190 to PC Output Data Format 20

6.2.1 With Header 20

6.2.2 Without Header 25

6.3 Data 26

6.4 Wire Configuration 30

7. Printer Connection

7.1 Connection to TVP/ELTRON Printer 31

7.2 Connection to SE250 / EPSON Printer 31

7.3 RS232 Related SPEC List 32

7.4 Wire Configuration 34

8. Set Point Connection

8.1 Pin Configuration 35

8.2 Set Point SPEC Setting 35

8.3 Set Point Set Up 36

9. Barcode Scanner Connection

9.1 General Specification 37

9.2 Default Spec for Barcode Scanner 37

9.3 Pin Configuration 37

9.4 Input Data 38

9.4.1 3 Line Barcode 38

9.4.2 Barcode Scanning Mode 38

9.5 Header Code 39

9.6 Z Command Code 39

9.7 RS232 Related SPEC List 40

9.8 Barcode Sample 40

10. Force Balance Connection

10.1 General Specification 41

10.2 Calibration of Scale 41

10.3 Force Balance SPEC Setting 42

10.4 Wire Configuration 44

11. Circuit Diagram

11.1 Block Diagram 45

11.1.1 With Main Board TWB -01900 45

11.1.2 With Main Board TWB -01901 46

11.2 DC 190 Main Board TWB-01900-3 47

11.3 DC 190 Main Board TWB-01901-0 50

11.4 DC 190 A / D Board TWB-01930-1 54

11.5 DC 190 Filter Board TWB-01940-0 55

11.6 DC 190 A / D Connector Board TWB-01950-1 56

11.7 DC 190 Connector Board TWB-01921-1 57

11.8 DC 190 RS232 / 4 Line Interface Board TWB-01970-0 58

11.9 DC 190 Key Board TPB-1672-3 60

11.10 DC 190 Power Board TWB -01911-1 61

12 APPENDIX A 62

DC 190 GENERAL SPECIFICATION

1

1 GENERAL SPECIFICATION

Model : DI 190 ( Indicator)

DC 190 (Pole / Bench)

Dimension : Indicator - 142 (L) X 310 (W) X 88 (H)
Pole - 415 (L) X 420 (W) X 455 (H)
Bench - 415 (L) X 435 (W) X 120 (H)

Capacity : Single Loadcell (Pole / Bench - SX Platform)
500g, 1 Kg, 2.5 Kg, 5 Kg, 10 Kg, 25 Kg, 50 Kg
1Lb, 2.5 Lb, 5 Lb, 10 Lb, 25 Lb, 50 Lb, 100 Lb

Dual Loadcell (Pole / Bench- SX Platform)

500g & 2.5 Kg, 500g & 5 Kg, 1 Kg & 5 Kg, 1kg & 10 Kg

Number Of Loadcells : 2 Internal, 1 External, 1 Force Balance (RS232C)

Loadcell Connectivity : 0.4 ~ 2.46 mV/V

Type Of Display : VFD
Weight Display - 6 Digits
Unit Weight Display - 5 Digits
Quantity - 7 Digits

Display Resolution : 1 / 10,000 ; 1 / 5,000 ; 1 / 2,500

Counting Resolution : 1 / 500,000 ; 1 / 1,000,000

Keyboard : Mechanical key switch

Printing Items : Time; ID code; Lot No; Net Weight; Gross Weight;

Unit Weight; Tare Weight; Parts Name; Parts No; Quantity

Memory Item : 200 items

Set Point Output : 6 Set Points (Open Collector type)

Option : RS232C - PC;

Barcode Scanner (TTL or RS232C type);
Printer SE 250, LP 2622 and LP2722;

Force Balance (Ohaus Explorer )

Power Source : DI 190 - AC/DC Adapter Only
DC 190 - AC/DC Adapter, Rechargeable Battery or AC power.

i) AC/ DC 12 V / 1.4A Adapter (Class II Type)
ii) Rechargeable Battery - Panasonic LC-R123R4PTI
(AC voltage to charge; must charge > 6 hrs;
usage approx. 7 hrs.)
iii) AC 115 / 220 V

DC 190 OVERALL DIMENSION

2

2 OVERALL DIMENSION

2.1 DC 190 INDICATOR

2.2 S-X PLATFORM

DC 190 OVERALL DIMENSION

3

2.3 POLE TYPE

POLE TYPE WITH 1 SCALE

POLE TYPE WITH 2 SCALES

DC 190 OVERALL DIMENSION

4

2.4 BENCH TYPE

BENCH TYPE WITH 1 SCALE

BENCH TYPE WITH 2 SCALES

DC 190 KEYSHEET AND DISPLAY LAYOUT

5

3 KEYSHEET AND DISPLAY LAYOUT

KEY FUNCTION

Numeric No.

To change between Gross and Net; use as inventory key

To callout PLU data; to program commodity name in programming mode

To print data when printer is connected; store SPEC data

To subtract; to decrease SPEC no; to program parts no., date and time

To accumulate; to increase SPEC no; to program set point

To enter unit weight using numeric key board

To switch between different scales

To compute unit weight by sampling

To set and clear the tare weight

To clear the data of entries and unit weight.

To reset the zero point of the scale.

Change the maintenance and weighing mode

Turn on and off the machine.

Decimal Point

DC 190 KEYSHEET AND DISPLAY LAYOUT

6

INDICATOR LAMPS

ZERO When the gross weight is zero

NET When tare weight is set

GROSS When [Gross/Net] is pressed

INSUFF When net weight is below a specific percentage of capacity weight

RECOM When unit weight re -computing is possible

MEMORY When quantity is being accumulated or when memory overflows

MODE When in the programming mode

BATT When battery power level is low

SCALE 1 When built in platform 1 is used

SCALE 2 When built in platform 2 is used

SCALE 3 When external platform is used

SCALE 4 When force balance is used

IN Inventory in

OUT Inventory out

DC 190 INITIAL SETUP

7

4 INITIAL SETUP

4.1 SET UP

BOTTOM OF S-X PLATFORM

4.1.1 DC 190 BENCH TYPE SET UP

Part need : DC 190 Indicator
S-X Platform
Bracket AG

4 x

DC 190

S-X Platform

Remove this load cell
stopper screw and nut
before proceed.

Bracket AG

DC 190 INITIAL SETUP

8

4.1.2 DC 190 POLE TYPE SET UP

S-X Platfor m

Pipe AA

DC 190 Indicator

Case BC

Case BA

Leg (A) - 2

Bracket BA

Grommet AH

Case BB

Bracket BG

Assy

2 x screws

2 x screws

2 x screws

2 x

2 x screws

4 x screws

4 x screws

4 x screws

Hex nut M6

Parts need : DC 190 Indicator
S-X Platform
Assy AA
Bracket BA
Bracket BG
Case BA
Case BB
Case BC
Grommet AH
Leg (A) -2
Pipe AA

4 x screws

DC 190 INITIAL SETUP

9

4.2 LOCATION OF SPAN SWITCH AND CONNECTOR.

** A sealing screw is screw onto the span switch hole.
Please remove the screw to access to the span switch.

Back view of DC 190

Top view of DC 190

4.3 DEFAULT SPEC

To default to the country specification

KEY T0 DISPLAY 1 2 3 4 5
PRESS WEIGHT UNIT WEIGHT QUANTITY

0.0000 0 0 x x At weighting mode
[REZERO]
+ [1][2][4]

DFT SPC 01 Go to Default SPEC

m ode.

[0] DFT SPC 01 0 Enter 00 – Japan

01 – USA
02 – Europe / SI

[*] PROG C00 To execute country

default specification

INDICATOR : 1 = ZERO; 2 = INSUFFICIENT; 3 = PROG; 4 = KG; 5 = SCALE 1

DC 190 INITIAL SETUP

10

4.4 CUSTOMER SPECIFICATION SETTING

To change or view the Customer SPEC Data.

KEY T0 DISPLAY 1 2 3 4 5
PRESS WEIGHT UNIT WEIGHT QUANTITY

0.0000 0 0 x x At maintenance mode
[REZERO]
+ [1][4][1]

SPC00 0 0 0 0 At Customer

Specification Mode

[+] SPC01 0 0 0 0 To increase Spec no.

and save spec before.

[1][0][1][1] SPC01 1 0 1 1 0 0 0 0 Enter data to change eg.

0000 to 1011

[+] SPC02 0 1 0 0 Save data and increase

spec no.
[1][0][1][1] SPC02 1 0 1 1 0 1 0 0
[C] SPC02 0 1 0 0 Clear data enter
[-] SPC01 1 0 1 1 Decrease the SPEC no.
[*] PROG C 0 0 Save SPEC data and exit

to programming mode.
[MODE] 0.0000 0 0 x x x x

INDICATOR : 1 = ZERO; 2 = INSUFFICIENT; 3 = PROG; 4 = KG; 5 = SCALE 1

4.5 WEIGHT & MEASURE SP ECIFICATION SETTING

To check or change the Weight & Measure SPEC.
Please turn on the Span Switch when using this mode.

KEY T0 DISPLAY 1 2 3 4 5
PRESS WEIGHT UNIT WEIGHT QUANTITY

0.0000 0 0 x x At maintenance mode
[REZERO]+
[1][4][2]

SPC20 0 0 0 0 At Weight & Measure

Specification Mode

[+] SPC21 0 0 1 1 To increase Spec no. and

save spec before.

[1][0][1][0] SPC21 1 0 1 0 0 0 1 1 Enter data to change eg.

0000 to 1011

[+] SPC22 0 0 1 0 Save data and increase

spec no.
[1][0][1][1] SPC22 1 0 1 0 0 0 1 0
[C] SPC22 0 0 1 0 Clear data enter
[-] SPC21 1 0 1 0 Decrease the SPEC no.
[*] PROG C 0 0 Save SPEC data and exit

to programming mode.
[MODE] 0.0000 0 0 x x x x

INDICATOR : 1 = ZERO; 2 = INSUFFICIENT; 3 = PROG; 4 = KG; 5 = SCALE 1

DC 190 INITIAL SETUP

11

4.6 INTERNAL COUNT AND A/D COUNT

To check the internal count of the A / D.

KEY TO DISPLAY 1 2 3 4 5
PRESS WEIGHT UNIT WEIGHT QUANTITY

PROG C 0 0 x x At maintenance mode
[REZERO] +
[*][*][+]

0 50000 x x Unit weight display the

internal count while the
Quantity display the A/D
count

[MODE] PROG C 0 0 x x Escape to maintenance

mode

[MODE] 0.0000 0 0 x x x x Return to weighing mode

INDICATOR : 1 = ZERO; 2 = INSUFFICIENT; 3 = PROG; 4 = KG; 5 = SCALE 1/2/3/4

4.7 CALIBRATION

Calibrate the scale to it specific weight. Please turn on the Span switch when using this mode. Select
the scale to calibrate before proceeds.

KEY T0 DISPLAY 1 2 3 4
PRESS WEIGHT UNIT WEIGHT QUANTITY

S-ON At S-ON display.
[REZERO] +
[8][7][1][5]

1.2364 15641 Go to the calibration mode.
Display shows zero count.

If display shows –
PRESS CODE LO-ERR or
PRESS CODE HI-ERR ­press [#] to auto compute the
zero point.

The zero count should be at
100,000 ± 20,000 range.

If after auto compute, the zero
count is not in range, press [+]
key to increase or [-] to
decrease the zero count until it
is in range.

[REZERO] 0.0000 93234 Set to zero weight.

5.2715 0 93234 Place weight on the platter e.g.
5 kg

[5][.][0][0][0]
[0]

5.2715 5.0000 580397 Key in the weight on the
platter e.g. 5 kg

[*] - - - - - - - - - - - - - - - - - - Compute the span calibration.
1 00000 5500000 Weigh and Unit weight show

the span count of the weight
while the Quantity shows the
count of zero + span.

[MODE] S-ON At S-ON display.

0.0000 0 0 x x x x Push the span switch to return
to normal

INDICATOR : 1 = ZERO; 2 = INSUFFICIENT; 3 = KG; 4 = SCALE 1/2/3/4

DC 190 SPECIFICATION LIST

12

5 SPECIFICATION LIST (BASED ON VERSION 6.87)

5.1 SOFTWARE VERSION

REVISION

NUMBER

MODIFICATION DETAIL SOFTWARE

VERSION

0.00 FIRST RELEASE OF NEW SPEC LIST Ver1.04, Ver1.06 &
Ver2.11

0.01 Removed DP122 spec and replace by LP2622

Add SPEC39 bit 0

Ver2.15 and above

0.02 Battery 1&2 Spec (SPEC32 bit 2, SPEC39 bit 1) Ver 3.18 and above

0.03 Added tare Spec on SPEC0 Ver 2.20 and above

0.04 Change load Cell Sensitivities Table Ver 2.22 and above

0.05 Changed to 16 bit CPU, added new mode (Job Schedule

mode) and enable PC to multi -scale communication.

Ver 3.43 and above

0.06 Changed RS232 and Force Balance baud rate setting

(1200 to 19200 and 2400 to 38400); Added SPEC43 bit 2 &
3 to set data receive waiting time.

Ver 3.45 and above

0.07 SPEC03 XX01 (12 Digits Teraoka Code) and SPEC03

00XX (12 Digits Numeric Number) are not used.

Ver 3.51 and above

0.08 Added notes 8) and 9). Ver 3.54 and above

0.09 Added SPEC12 bit 1 if set to 0 to download label format

for Eltron printer. Set to 1 for non-downloading.

Ver 3.70 and above

0.10 Added SPEC46 to select types of In and Out Inventory

combination.
Added SPEC39 to control AD Timing

Ver 3.72 and above

0.11 Added SPEC45 bit 0 and bit 1 to control Zero Tracking

Speed.

Ver 3.78 and above

0.12 Added note 15.

Added SPEC45 bit 3 to select TWB -01970 option board
and TWB -01921 option board.
Added SPEC45 bit 2 to select DP-122 printer or other
printers.

Ver 3.79 and above

0.13 Changed Spec:

The previous usage of SPEC19 bit 0 is changed to
SPEC47 bit 0. Changed selection of Japan Force Balance
using SPEC19 bit 1 only to selection using SPEC19 bit 0
& 1.
Added New Spec:
Added SPEC47 bit 1 to select webserver (6.84) and
SPEC47 bit 2 for qty scanning (6.84).
Added SPEC47 bit 3 to select label or receipt printing and
SPEC47 bit 1 to enable Siteplayer/Ethernet (6.85).
Added Spec48 bit 0 to select Epson printer (6.86).

Ver 3.80 and above;

Ver 6.80 and above

DC 190 SPECIFICATION LIST

13

5.2 CUSTOMER SPECIFICATION ([REZERO]+[1][4][1])

SPEC NO BIT 3 BIT 2 BIT 1 BIT 0

0 Tare when Scale

Change
0: Old Tare (*2)
1: New Tare

Digital Tare
Accumulation
0: No (*2)
1: Yes

0 : Not Used 0: Not Used

1 Power Auto Off Function

0 0 0 0 : Auto power off Disable when Net Weight = 0
0 0 0 1 ~ 1 1 1 1 : Duration to activate Power Off (in Minute)

2 Scale Specification (*3)

0 0 : Gram 0 1 : Kg
1 0 : Lb 1 1 : Not Used

Kg / Lb Lamp
Inhibit
0 : No (*2)
1 : Yes (*3)

Inventory Display by
Gross Key
0 : Gross Display (*7)
1 : No of Inventory

3 ID Code (Only for V2.xx) (*4)

0 0 : Not Used (*5)
0 1 : 16 Digits Teraoka Code
1 0 : Not Used (*5)
1 1 : 16 Digits Numeric Number

Entry Part No (*4)
0 0 : 12 Digits Numeric Number
0 1 : Not Used (*5)
1 0 : Not Used (*5)
1 1 : 16 Digits Teraoka Code (V2.xx)

4 Set New Item Code

during Normal Mode
0 : Yes
1 : No

Extent of Insufficient Samples
0 0 : 0.1 %
0 1 : 0.2 %
1 0 : 0.0 %
1 1 : Not Used

Negative Counting
0 : No
1 : Yes

5 Sampling Time for

Unit Wt Calculation
0 : 10 times
1 : 5 times

Unit Weight Auto
Recomputing
0 : No
1 : Yes

Date Order
0 0 : Year/Month/Day
0 1 : Day/Month/Year
1 0 : Not Used
1 1 : Month/Day/Year

6 Display Accuracy of

Unit Weight
0 : No
1 : Yes

Clear all Input Key in
One Touch (V2.xx)
0 : Yes
1 : No

RS232 Continue
Sending Rate to PC
(V2.xx)
0 : High
1 : Low

Auto Shift to Next
Position (Teraoka
Code Entry)
0 : No
1 : Yes

7 Set Point Buzzer

0 : Yes
1 : No

Set Points Latching
(V2.xx)
0 : Latch
1 : No Latch

Set Point Type
0 0 : % Quantity 1 0 : Quantity
0 1 : % Weight 1 1 : Weight

8 RS232C Connection

(Force Balance)
0 : No
1 : Yes

RS232C Data Length
(PC/Force Balance)
(Optional)
0 : 7 bits
1 : 8 bits

RS232C Baud Rate
(PC/Force Balance)
(Optional)
0 0 : 19200 1 0 : 4800
0 1 : 38400 1 1 : 9600

9 RS232C Stop Bit

(PC/Force Balance)
(Optional)
0 : 1 bits
1 : 2 bits

Force Balance Type
0 : Japan
1 : Export

RS232C Parity Bit
(PC/Force Balance)
(Optional)
0 0 : No 1 0 : Not Used
0 1 : Odd 1 1 : Even

10 RS232C Connection

(PC/Printer)
0 : No
1 : Yes

RS232C Data Length
(PC/Printer)
(Optional)
0 : 7 bits
1 : 8 bits

RS232C Baud Rate
(PC/Printer)
(Optional)
0 0 : 19200 1 0 : 4800
0 1 : 38400 1 1 : 9600

DC 190 SPECIFICATION LIST

14

SPEC NO Bit 3 Bit 2 Bit 1 Bit 0

11 RS232C Stop Bit

(PC/Printer)
(Optional)
0 : 1 bit
1 : 2 bits

Printer Type
(V2.xx)
0 : TVP Printer/

Eltron LP2622 or

LP2722

1 : SE250/

EPSON Printer (*6)

RS232C Parity Bit
(PC/Printer)
(Optional)
0 0 : No 1 0 : Not Used
0 1 : Odd 1 1 : Even

12 RS232C Output

(PC/Printer)
(Optional)
0 0 : Not Available
0 1 : When Counting Condition (PC)
1 0 : By * Key (PC + Printer)
1 1 : In Both Case

ELTRON/TVP
Printer Download
Label Format
0 : Enable
1 : Disable

RS232C with Header
(PC)
0 : Yes
1 : No

13 RS232C Header Send

(PC) (V2.xx)
0 : Code
1 : Title

RS232C Connector
D-Sub DIN
0 0 0 : Printer Force Balance
0 0 1 : Force Balance Printer
0 1 0 : Printer PC (*1)

(V2.xx)
0 1 1 : PC Printer (*1) (V2.xx)
1 0 0 : PC Force Balance (V2.xx)
1 0 1 : Force Balance PC (V2.xx)
1 1 0 - 1 1 1 : Not Used

14 RS232C Connection

(Barcode Scanner)
0 : No
1 : Yes

RS232C Data Length
(Barcode Scanner)
(Optional)
0 : 7 bits
1 : 8 bits

RS232 Baud Rate
(Barcode Scanner)
(Optional)
0 0 : 1200 1 0 : 4800
0 1 : 2400 1 1 : 9600

15 RS232C Stop Bit

(Barcode Scanner)
(Optional)
0 : 1 bits
1 : 2 bits

RS232C w ith Header
(Barcode Scanner)
0 : Yes
1 : No

RS232C Parity Bit
(Barcode Scanner)
(Optional)
0 0 : No 1 0 : Not Used
0 1 : Odd 1 1 : Even

16 Scale 1 (LED):

0 0 : Internal Scale 1
0 1 : Internal Scale 2
1 0 : External Scale
1 1 : Force Bal ance

Scale 2 (LED) :
0 0 : Internal Scale 1
0 1 : Internal Scale 2
1 0 : External Scale
1 1 : Force Balance

17 Scale 3 (LED):

0 0 : Internal Scale 1
0 1 : Internal Scale 2
1 0 : External Scale
1 1 : Force Balance

Scale 4 (LED) :
0 0 : Internal Scale 1
0 1 : Internal Scale 2
1 0 : External Scale
1 1 : Force Balance

18 Set Point TTL Output

0 : Active Low
1 : Active High

Number of Set Points
0 0 0 : 2 Set Points
0 0 1 : 3 Set Points
0 1 0 : 4 Set Points (Not Used for RS485 Network Card)
0 1 1 : 5 Set Points (Not Used for RS485 Network Card)
1 0 0 : 6 Set Points (Not Used for RS485 Network Card)

19 Display “Not F”

message for item that
is not stored in
memory before
(V2.xx)
0 : Yes
1 : No

Link to IMS
(For US Version in
V2.xx)
0 : No
1 : Yes

Type of Force Balance
(Japan Version Only)
0 0: SHG -300
0 1: HR-200
1 0: HR-60
1 1: Not Used

DC 190 SPECIFICATION LIST

15

5.3 WEIGHT & MEASURE SPECIFICATION ([REZERO]+[1][4][2])

Please turn ON the span switch before proceed.

SPEC NO BIT 3 BIT 2 BIT 1 BIT 0

20 Minimum Display (Scale 1)

0 0 : 2 1 0 : 5
0 1 : 1 1 1 : 10

Minimum Display (Scale 2)
0 0 : 2 1 0 : 5
0 1 : 1 1 1 : 10

21

0 : Not Used

Weight Decimal Point Position (Scale 1)
0 0 0 : 00000 0 1 1 : 00.000
0 0 1 : 0000.0 1 0 0 : 0.0000
0 1 0 : 000.00 1 0 1 : 0.00000 (*8)

22

0 : Not Used

Weight Decimal Point Position (Scale 2)
0 0 0 : 00000 0 1 1 : 00.000
0 0 1 : 0000.0 1 0 0 : 0.0000
0 1 0 : 000.00 1 0 1 : 0.00000 (*8)

23 Display Resolution

0 0 : 1/10,000 1 0 : 1/2,500
0 1 : 1/5,000 1 1 : Not Used

Zero Setting Range
0 0 : + Unlimited 1 0 : ± 10 % FS

- 10 % FS
0 1 : ± 2 % FS 1 1 : Not Available

24 Masked Display at

Minus Weight
0 : Gross
1 : Net

Display at Minus
Weight
0 : Minus Display
1 : Masked

Zero Lamp
Lighting Method
0 : Gross
1 : Net

When no AC, Display
Mask when Battery Low
or No Battery
0 : Yes
1 : No

25 Scale Starting Method

0 : Automatic
1 : Manual

IR Mode protected by
Span Switch
0 : No
1 : Yes

Scale Type
0 : Single Scale
1 : Double Scale

Gross Mode Available

0 : Yes
1 : No (*7)

26 Zero Tracking when

Tare
0 : Yes
1 : No

Weight Reset when
Tare
0 : Yes
1 : No

Initial Start Range
0 0 : + Unlimited 1 0 : ± 10 % FS

- 10 % FS
0 1 : ± 2 % FS 1 1 : Not Available

27 Comma Display

0 : No
1 : Yes

Digital Tare Setting
0 : No
1 : Yes

Tare Range
0 0 : 100% FS 1 0 : 5% FS
0 1 : 50% FS 1 1 : Not Available

28 Auto Tare Clear when

Rezero
0 : No
1 : Yes

Automatic Unit Weight Clear Condition
0 0 : Over Net 5d and Gross 21d and

Weight Stable

0 1 : >= Net 1d and Weight Stable
1 0 : >= Net 1d and Quantity > 0 and

Weight Stable

Automatic Unit Weight
Clear
0 : No
1 : Yes

29 Digital Tare Rounding

0 : Tare Exactly
1 : Round to Nearest

Increment

Tare Value Exchange
0 : Yes
1 : No

Tare Addition
0 : Yes
1 : No

Tare Subtraction
0 : Yes
1 : No

DC 190 SPECIFICATION LIST

16

SPEC NO BIT 3 BIT 2 BIT 1 BIT 0

30 Loadcell Sensitivities Selection (mV/V) (Scale 1)

0 0 0 0 4.00
0 0 0 1 3.76
0 0 1 0 3.52
0 0 1 1 3.28
0 1 0 0 3.04
0 1 0 1 2.80
0 1 1 0 2.56
0 1 1 1 2.32
1 0 0 0 2.08
1 0 0 1 1.84
1 0 1 0 1.60
1 0 1 1 1.36
1 1 0 0 1.12
1 1 0 1 0.88
1 1 1 0 0.64
1 1 1 1 0.40

31 Loadcell Sensitivities Selection (mV/V) (Scale 2)

0 0 0 0 4.00
0 0 0 1 3.76
0 0 1 0 3.52
0 0 1 1 3.28
0 1 0 0 3.04
0 1 0 1 2.80
0 1 1 0 2.56
0 1 1 1 2.32
1 0 0 0 2.08
1 0 0 1 1.84
1 0 1 0 1.60
1 0 1 1 1.36
1 1 0 0 1.12
1 1 0 1 0.88
1 1 1 0 0.64
1 1 1 1 0.40

32 Calibration /

Default SPEC /
SPEC 142 Mode
Protected by Span
Switch
0 : Yes
1 : No

Platform Battery
Low Lamp
0 : Yes
1 : No

Auto Exit from Add
Mode
0 : No
1 : Yes

External Loadcell
(Scale 3)
0 : No
1 : Yes

33 Over Weight Mask at

0 : +1d
1 : +9d

Weight Decimal Point Position (Scale 3)
0 0 0 : 00000 0 1 1 : 00.000
0 0 1 : 0000.0 1 0 0 : 0.0000
0 1 0 : 000.00

34

0 : Not Used

Loadcell Type
(Scale 1)
0 : For Standard or

Normal Loadcell
1 : For Abnormal
Loadcell with too
Large Offset

A/D Board (Scale 1)
0 0 : Normal
0 1 : Prevent from Small Vibration /

Fast Change in Display

1 0 : Prevent from Medium Vibration
1 1 : Prevent from Large Slow Change

in Display

DC 190 SPECIFICATION LIST

17

SPEC NO BIT 3 BIT 2 BIT 1 BIT 0

35

0 : Not Used

Loadcell Type
(Scale 2)
0 : For Standard or

Normal Loadcell
1 : For Abnormal

Loadcell with too
Large Offset

A/D Board (Scale 2)
0 0 : Normal
0 1 : Prevent from Small Vibration /

Fast Change in Display

1 0 : Prevent from Medium Vibration
1 1 : Prevent from Large Slow Change

in Display

36 Minimum Display (Scale 3)

0 0 : 2 1 0 : 5
0 1 : 1 1 1 : 10

A/D Board (Scale 3)
0 0 : Normal
0 1 : Prevent from Small Vibration /

Fast Change in Display

1 0 : Prevent from Medium Vibration
1 1 : Prevent from Large Slow Change in

Display

37 Loadcell Sensitivities Selection (mV /V) (Scale 3)

0 0 0 0 4.00
0 0 0 1 3.76
0 0 1 0 3.52
0 0 1 1 3.28
0 1 0 0 3.04
0 1 0 1 2.80
0 1 1 0 2.56
0 1 1 1 2.32
1 0 0 0 2.08
1 0 0 1 1.84
1 0 1 0 1.60
1 0 1 1 1.36
1 1 0 0 1.12
1 1 0 1 0.88
1 1 1 0 0.64
1 1 1 1 0.40

38 Loadcell Type

(Scale 3)
0 : For Standard or

Normal Loadcell
1 : For Abnormal
Loadcell with too
Large Offset

Digital Tare when
Loaded
0 : Allow
1 : Not Allow

Internal Count
(V2.xx)
0 : 500,000
1 : 1,000,000

Stability Check when
Changing Scale
(V2.xx)
0 : Yes (*9)
1 : No

39 AD Timing Delay

0 0 : Default
0 1 : Slow
1 0 : Slower
1 1 : Slowest

Indicator Battery
Low Lamp
(V3.18 and above)
0 : Yes
1 : No

Rezero when
Changing Scale
(V2.15 and above)
0 : No
1 : Yes (*9)

DC 190 SPECIFICATION LIST

18

** NOTE for SPEC 00 to SPEC 39

*1) The Baud Rate, Data Length, Stop Bit and Parity setting for PC based on SPEC 08 and SPEC 09.

Also, when pressing valid print ‘*’, ‘+’ & ‘-’ key, the scale will send data to PC.

*2) When SPEC 02 bit 1 set to ‘0’ (Kg/Lb Lamp Not Inhabit), SPEC00 bit 3 & 2 can only set to ‘0’.

*3) When SPEC 02 bit 3 & 2 are set to ‘Gram’ then SPEC 02 bit 1 should set to ‘1’(Kg/Lb Lamp Inhabit).

*4) Some conditions applied when doing spec changing in SPEC 03. All item code memory must be cleared when

changes in SPEC 03.

*5) When SPEC 03 bit 3 & 2 or bit 1 & 0 is set to ‘Not Used’, the software will automatically set the byte to ‘11’.

*6) To use EPSON printer, SPEC 11 bit 2 must set to ‘1’ and SPEC 48 is set to ‘1’.

To choose SE250 (CO-STAR) printer, SPEC 11 bit 2 must set to ‘1’ and SPEC 48 is set to ‘0’.

*7) To view Lot No using Gross Key in Normal Mode, must set SPEC25 bit 0 to 1 and set SPEC 02 bit 0 to 0.

*8) Only for Capacity of 0.50000kg

*9) When SPEC 39 bit 0 is set to ‘1’, SPEC 38 bit 0 must set to ‘0’.

IMPORTANT:

Note that you need to change back the unit to the first unit before shifting scale to Force Balance.

DC 190 SPECIFICATION LIST

19

5.4 MULTI-DROP HOST COMMUNICATION SPEC ([REZERO]+[1][4][3])

SPEC NO BIT 3 BIT 2 BIT 1 BIT 0

40 Scale Address (Most Significant Digit 0 to 9 – Maximum 3)
41 Scale Address (Least Significant Digit 0 to 9)
42 Save In Local Memory

0 : No
1 : Yes

Clear Display for
Correct Transaction
0 : No (*1)
1 : Yes

0 : Not Used

Multi-Drop Host
Comm
0 : Disabled
1 : Enabled

43 Receive Data Waiting Time

0 0 : 3 seconds
0 1 : 5 seconds
1 0 : 9 seconds
1 1 : 15 seconds

0 : Not Used

Enabled Polling with
TNP Software
0 : No Polling
1 : Polling

44 Allow Different Quantity

in Job Schedule
0 : No
1 : Yes (*3)

TNP Re-print
0 : Disable
1 : Enable (*1)

Job Schedule
Barcode Scanning
0 : Disable
1 : Enable

Job Schedule Mode
0 : Disable
1 : Enable

45 Select Option Board Used

0 : TWB-01921
1 : TWB-01970 (*2)

Select DP-122 Printer
or other printers

0 : Others
1 : DP-122

Zero Tracking Speed
0 0 : Slow 1 0 : Fast
0 1 : Average 1 1 : Fastest

46 Allow Manual Quantity

Entry in Job Schedule
0 : No
1 : Yes (*3)

Selection of Incoming or Outgoing or Non In and Out Inventory
000 : In/Out/Non 100 : In
001 : In/Out 101 : Out
010 : In/Non 110 : Non
011 : Out/Non 111 : Not Used

47 Print Label or Receipt

using TVP printer.
0 : Label
1 : Receipt

Go to Weighing Mode
when Scan Quantity
0 : No (TOTAL mode)
1 : Yes

Connection to
Webserver
(SitePlayer)
0 : Disable
1 : Enable

Print When
Pressing + or – key
in Add Mode
0 : Yes
1 : No

48

0 0 0 : Not Used

Label Writer
Printer Select
0 : SE250
1 : EPSON

**Note for SPEC 40 to SPEC 48

*1) To reprint a label in TNP, you need to set SPEC 42 bit 2 to 0 and SPEC 44 bit 2 to 1.

Important: In order to reprint, the user is not allow to press other key besides the previous key that he/she

has pressed for printing. Meaning if the user pressed */print key to print a label, he/she must press the same
key to reprint the label.

*2) Cannot use set point 4 to set point 6 for new option board (TWB -01970).

*3) In order to allow Manual Quantity Entry in Job Schedule (SPEC46 bit 3 to ‘1’), must set SPEC44 bit 3 to ‘1’

for this operation to take effect.

DC 190 PC CONNECTION

20

6 PC CONNECTION

6.1 GENERAL SPECIFICATION

Baud Rate : 4800 / 9600 / 19200 / 38400 bps (SPEC 10 bit 1 & 0)
Data Length : 7 bits / 8 bits (SPEC 10 bit 2)
Parity : None / Odd / Even (SPEC 11 bit 1 & 0)
Stop Bit : 1 bit / 2 bits (SPEC 11 bit 3)

6.2 DC 190 TO PC OUTPUT DATA FORMAT

6.2.1 With Header (SPEC12 bit 0 set to 0)

The PC communication protocol is divided in 2 types. The first type is the old communication protocol
and the second type is the new communication protocol. This new protocol is specially designed to
cater for multi -scale to PC communication through the Digi Track N Print (TNP) software. In order to
use the new protocol, SPEC42 bit 0 must be set to 1 else the DC190 will use the old protocol for
communication.

The differences between the two protocols are as described below:

A1) Old Protocol (SPEC42 bit 0 set to 0)

HEADER DATA CR HEADER ……… CR LF

One Data consists of “HEADER”, “DATA” & “CR”.
“CR” must be added at the end of the data.
“LF” must be added at the end as a termination code of the transmission.

A2) New Protocol (SPEC42 bit 0 set to 1)

REQUEST/ UPDATA CODE ? Station Address CR

HEADER DATA CR HEADER ……… CR BCC LF

DC 190 PC CONNECTION

21

A3) The REQUEST/UPDATE CODE fields can only be represented by the following codes:

REQUEST/UPDATE CODE DATA
<EOT> End of Transmission (No Error)
<ESC> End of Transmission (Error Occurred)
<ENQ> DC190 request for data
<STX> PC or DC190 send data
<DC1> Network printing
<DC2> Incoming Job Schedule
<DC3> Out going Job Schedule
<ACK> DC190 acknowledge to Host to start sending Label printing data
<CAN> Send by Host to indicate End of network label printing data
<DC4> Send by Host to update current DC190 spec
<SO> Host send Hardware key for DC190 to decode

The data after the REQUEST/UPDATE CODE must be the scale address that is represented by
H’3F (?) and a 2 digit Scale Address.

One Data consists of “HEADER”, “DATA” & “CR”.
“CR” must be added at the end of the data.
“LF” must be added at the end as a termination code of the transmission.

(Note that the characters in the “DATA” file cannot be <LF> or <CR> because both of it are Control
Characters.)

“BCC” is the Checksum. The BCC calculation starts with HEX Character 7F and XOR from first data to
the last <CR> of the data being sent out. Take note that not every string of data being sent out has
BCC. Refer to part (D) of this section for the complete protocol.

DC 190 PC CONNECTION

22

A4) In order to use the new protocol you must set the following SPEC:

Communication SPE C : SPEC 8 to 13 and 19

SPEC NO Bit 3 Bit 2 Bit 1 Bit 0

8 RS232C Connection

(Force Balance)
0 : No
1 : Yes

RS232C Data Length
(PC/Force Balance)
(Optional)
0 : 7 bits
1 : 8 bits

RS232C Baud Rate
(PC/Force Balance)
(Optional)
0 0 : 19200 1 0 : 4800
0 1 : 38400 1 1 : 9600

9 RS232C Stop Bit

(PC/Force Balance)
(Optional)
0 : 1 bits
1 : 2 bits

Force Balance Type
0 : Japan
1 : Export

RS232C Parity Bit
(PC/Force Balance)
(Optional)
0 0 : No 1 0 : Not Used
0 1 : Odd 1 1 : Even

10 RS232C Connection

(PC/Printer)
0 : No
1 : Yes

RS232C Data Length
(PC/Printer)
(Optional)
0 : 7 bits
1 : 8 bits

RS232C Baud Rate
(PC/Printer)
(Optional)
0 0 : 19200 1 0 : 4800
0 1 : 38400 1 1 : 9600

11 RS232C Stop Bit

(PC/Printer)
(Optional)
0 : 1 bit
1 : 2 bits

Printer Type
(V2.xx)
0 : TVP Printer/

Eltron LP2622 or

LP2722

1 : SE250/

EPSON Printer (*6)

RS232C Parity Bit
(PC/Printer)
(Optional)
0 0 : No 1 0 : Not Used
0 1 : Odd 1 1 : Even

12 RS232C Output

(PC / Printer)
(Optional)
0 0 : Not Available
0 1 : When Counting Condition (PC)
1 0 : By * Key (PC + Printer)
1 1 : In Both Case

ELTRON/TVP
Printer Download
Label Format
0 : Enable
1 : Disable

RS232C with
Header
(PC)
0 : Yes
1 : No

13 RS232C Header Send

(PC) (V2.xx)
0 : Code
1 : Title

RS232C Connector
D-Sub DIN
0 0 0 : Printer Force Balance
0 0 1 : Force Balance Printer
0 1 0 : Printer PC (*1) (V2.xx)
0 1 1 : PC Printer (*1) (V2.xx)
1 0 0 : PC Force Balance (V2.xx)
1 0 1 : Force Balance PC (V2.xx)
1 1 0 - 1 1 1 : Not Used

19 Display “Not F”

message for item that
is not stored in
memory before
(V2.xx)
0 : Yes
1 : No

Link to IMS
(For US Version in
V2.xx)
0 : No
1 : Yes

Type of Force Balance
(Japan Version Only)
0 0: SHG -300
0 1: HR-200
1 0: HR-60
1 1: Not Used

Note:

*1) The Baud Rate, Data Length, Stop Bit and Parity setting for PC based on SPEC 08 and SPEC 09.

Also, when pressing valid print ‘*’, ‘+’ and ‘-’ key, the scale will send data to PC.

DC 190 PC CONNECTION

23

Multi-Drop Host Communication SPEC : (SPEC 40 to 44)

SPEC NO BIT 3 BIT 2 BIT 1 BIT 0

40 Scale Address (Most Significant Digit 0 to 9 – Maximum 3)
41 Scale Address (Least Significant Digit 0 to 9)
42 Save In Local

Memory
0 : No
1 : Yes

Clear Display for
Correct Transaction
0 : No (*1)
1 : Yes

0 : Not Used

Multi-Drop Host
Comm
0 : Disabled
1 : Enabled

43 Receive Data Waiting Time

0 0 : 3 seconds
0 1 : 5 seconds
1 0 : 9 seconds
1 1 : 15 seconds

0 : Not Used

Enabled Polling
with TNP Software
0 : No Polling
1 : Polling

44 Allow Different

Quantity in Job
Schedule
0 : No
1 : Yes

TNP Re-print
0 : Disable
1 : Enable (*1)

Job Schedule
Barcode Scanning
0 : Disable
1 : Enable

Job Schedule Mode
0 : Disable
1 : Enable

Example:

Set the following Specs:
Baud Rate : 9600 bps (Spec 10 bits 1 & 0) Or (Spec8 bit 1 & 0)
Data Length : 8 bits (Spec 10 Bit 2) Or (Spec8 Bit 2)
Parity : None (Spec 11 Bit 1 & 0) Or (Spec9 Bit 1 &0)
Stop Bit : 1 bit (Spec 11 Bit 3) Or (Spec 9 Bit 3)
* RS232 Output : By “*”Key (Spec 12 Bit 3 & 2)
* RS232 With Header : 0: Yes (Spec 12 Bit 0)
* RS232 Header : 0: Code (Spec 13 bit 3)
RS232 Connection : 1: Yes (Spec 10 bit 3)
RS232 Connector : PC (Spec13 bit 2,1,0: 010, 011, 100 or 101)
Display “Not F” Msg : 1: No (Spec19 bit 3)

Link to IMS Software : 1: Yes (Spec 19 bit 2)

(For US Only Version Only)

Scale Address : 01 (Spec40 & Spec41)
* Multi -Drop Host Comm : 1: Enable (Spec 42 bit 0) - Using New Protocol
Job Schedule : 0: Disable (Spec 44 bit 0) - Disable Job Schedule

Note:

When using the new protocol those fields mark with * must be set as the example above.

DC 190 PC CONNECTION

24

A5) There are 2 type of Headers which is controlled by SPEC 13 bit 3

i) Header Code (SPEC 13 bit 3 set to 0)
ii) Title (SPEC 13 bit 3 set to 1)

(i) HEADER WITH HEADER CODE (SPEC 13 bit 3 set to 0)

Header Code is sent before the “data” to indicate type of the data.
The table below shows the type of data and its corresponding data length that can be sent:

Header Code ASCII Code Data Data Length (Bytes)

0 30 Net Weight MAX 5+1
1 31 Unit Weight MAX 5+1
2 32 Quantity MAX 7
3 33 ID Code 32
4 34 Tare Weight MAX 5+1

A 41 Gross Weight MAX 5+1

B 42 Status 3
C 43 Date &Time 12
E 45 Lot No 32
F 46 Set Point 1 [W] MAX 7
G 47 Set Point 1 [Q] MAX 7
H 48 Set Point 2 MAX 7

I 49 Total Quantity MAX 7

K 4B Inventory 8

M 4D Part No MAX 32

N 4E Part Name 32
V 56 Scale No (1-4) 1
Q 51 Set Point 3 MAX 7
X 58 Set Point 4 MAX 7
U 55 Set Point 5 MAX 7
O 4F Set Point 6 MAX 7
? 3F Scale Address 2

J 4A Job Schedule No 4

~ 7E Error Message Type 2

z 7A Spec Downloading 80
a 61 Command 2
b 62 Span Data 6
c 63 Calibration Data 6

DC 190 PC CONNECTION

25

(ii) HEADER WITH TITLE

Title is sent before the data to indicate type of the data.
This can be used only when RS232 Output is set to Counting Condition, With Header and Title.

The following type of data can be sent:

Title Data

NET WEIGHT Net Weight

UNIT WEIGHT Unit Weight

QUANTITY Quantity

ID CODE ID Code

TARE Tare Weight

GROSS WEIGHT Gross Weight

STATUS Status

DATE & TIME Date &Time

SET P1(W) Set Point 1 [W]

SET P1(Q) Set Point 1 [Q]

SET P2 Set Point 2

TOTAL QUANTITY Total Quantity

INVENTORY Inventory

PART NO Part No

PART NAME Part Name

LOT NO Lot No

SCALE NO Scale No

SET P3 Set Poi nt 3
SET P4 Set Point 4
SET P5 Set Point 5
SET P6 Set Point 6

JOB NO Job Schedule No

6.2.2 Without Header (SPEC12 BIT 0 set to 1)

DATA CR DATA CR ……… CR LF

One Data consists of “DATA” & “CR”.
“CR” must be added at the end of the data.
“LF” must be added at the end as a termination code of the transmission.

DC 190 PC CONNECTION

26

6.2.3 DATA

(i) ID Code

Parts Code is only sent when a PLU is called during the Counting Mode.
No of digit is from 1 to 32 digits. If the ID code is less than 32 digits, then the rest of the data will be
filled with space (20H).

Example : Parts Code = 12

Header <-------------------------------- DATA--------------------------------------------------->

3 1 2 SP SP SP SP SP SP SP SP SP SP CR

(ii) Set Points

Set Points data are only sent when a PLU is called during the Counting Mode.
There are 6 set point data to be sent: Set Point 1 (F or G), Set Point 2 (H), Set Point 3(Q),
Set Point 4(X), Set Point 5(U) and Set Point 6 (O).

Set Point 1

(F) Weight : Variable Length - Max 5 digits and 1 decimal point. OR

(G) Quantity : Variable Length - Max 7 digits.

(Note : Only one of “F” (Set 1 Weight) or “G” (Set 1 Quantity) is sent.)

Set Point 2 to 6 (H, Q, X, U, O)

Percentage : Variable length, Max 5 digits and 1 decimal point. OR
Lower Weight : Variable length, Max 5 digits and 1 decimal point. OR
Lower Quantity : Variable length, Max 7 digits.

4 combinations of Set Point 1 and Set Point 2 to 6 can be sent as follows:

SET 1 SET 2,3,4,5,6
* Quantity & Percentage
* Upper Quantity & Lower Quantity
** Weight & Percentage
** Upper Weight & Lower Weight

Note:

1. * Set Point 1 must be set to Quantity (“G”).

2. ** Set Point 1 must be set to Weight (“F”).

3. Set Point 2 to 6 must either increase or decrease.

4. The Number of Decimal Point for Weight Set Point 2 to 6 must be the same as the Number of Decimal
Point in Set Point 1.

5. For Percentage, the Maximum Number of Decimal Point is 2.

DC 190 PC CONNECTION

27

(iii) Gross Weight

Variable Length - Max 5 digits and 1 decimal point.

(iv) Net Weight

Variable Length - Max 5 digits and 1 decimal point.

(v) Unit Weight

Variable Length - Max 5 digits and 1 decimal point.

(vi) Tare Weight

Variable Length – Max 5 digits and 1 decimal point.

Note:
When Host sends tare weight with all spacing :

4 SP SP SP SP SP CR

DC 190 will ignored the tare value and remains its current tare value.

(vii) Quantity

Variable Length - Max 7 digits.

(viii) Total Quantity

Variable Length - Max 7 digits sent when PRINT key is depressed.

Note:

Only one of “2” (Quantity) or “I” (Total Quantity) is sent at a time.
Total Quantity will be sent when in ACC or SUB mode.

(ix) Status

The status data byte is as follows:

1st byte:

Bit # If set to 1 If set to 0
Bit 0 Positive weight Negative weight
Bit 1 Lb m ode kg, g mode
Bit 2 Weight stable Weight unstable
Bit 3 Output key in data Others
Bit 4 Output by + key Others
Bit 5 Output by - key Others
Bit 6 Always set to “1”
Bit 7 Always set to “0”

When bit 3 (Output key in data) is “1”, bit 2 (weight stable) should be ignored.

2

nd

Byte:

+ : Inventory In Lamp On.

- : Inventory Out Lamp On

* : All Inventory Lamp Off.

DC 190 PC CONNECTION

28

3rd Byte:

Bit # If set to 1 If set to 0
Bit 0 Network Printer Local Printer
Bit 1 Re-print TNP Labels No Re-print
Bit 2 Don’t Print Label Print Label
Bit 3 X X
Bit 4 X X
Bit 5 X X
Bit 6 Always set to “1”
Bit 7 Always set to “0”

Bit 2 – Re-print TNP Label in Job Schedule and in Normal Mode
Bit 3 – SPEC 47 bit 0 to print or not to print when +/- key is pressed

(x) Part No

32 digits.

If 12 digits Part Number is set using SPEC 03, DC 190 will send out 12 characters only.

(xi) Lot No

32 digits.

(xii) Inventory

8 digits.

Note:

1) When HOST send inventory data with all spacing, DC 190 should ignored it, otherwise it need to

be overwritten by the new value.

2) For negative inventory data, the negative sign (-) will place in the beginning of the inventory data

(xiii) Part Name

32 digits.

Note:

For Part No, Lot No, Inventory and Part Name, if the number of bytes of data is less than the data
length, the rest of the data will be filled with space (20H).

(xiv) Scale No

1 digit.

(xv) Date & Time

12 digits.

Header

(C)

YEAR

(2 DIGIT)

MONTH

(2 DIGIT)

DATE

(2 DIGIT)

HOUR

(2 DIGIT)

MINUTE
(2 DIGIT)

SEC

(2 DIGIT)

CR

Note:

1. For ID Code, Part Name, Lot Number and Part Number, refer to Appendix A for Teraoka Code key.

DC 190 PC CONNECTION

29

(xvi) Scale Address

2 digits.

(xvii) Job Schedule Number

4 digits.

(xviii) Error Message Type

2 digits.

(xix) Download SPEC

80 digits.

The scale will not modify or update SPEC 20 to SPEC 39 because these are the Weight and
Measurement SPECs which are not allowed to be modified.

(xx) Calibration Command

2 digits

Command Descriptions

1) a00 – Beginning of Calibration (Calibration Command)

2) a01 – Go into Calibration Mode with Weight and Span Data Display (Re-Zero 8715)

(Calibration Command)

3) a02 – Searching for Zero Setting Point (Code (#) key press). (Calibration Command)

4) a03 – Re-Zero Command (Press Re-Zero key in DC 190). (Calibration Command)

5) a04 – Request DC190 to save the current SPAN Data. (Calibration Command)

6) a05 – Request for DC 190 to save the Span Data and Exit to Internal Count Mode.

(Calibration Command)

7) a06 – DC 190 will send SPEC Data to Host. (SPEC Downloading Command)

8) a07 – Save SPEC Data into DC 190. (SPEC Downloading Command)

9) a99 – Exit Calibration Mode. (Calibration Command)

(xxi) Span Data

Max 6 digits

Scale will send Span Data consisting maximum of 6 digits during PC Calibration

(xxii) Calibration Data

Max 5 digits and a decimal point.

During PC Calibration, PC will send this value to DC 190.

DC 190 PC CONNECTION

30

6.3 WIRE CONFIGURATION

9 PIN D-SUB CONNECTOR 25 PIN D-SUB CONNECTOR 8 PIN DIN PLUG

BACK VIEW (FEMALE) BACK VIEW (FEMALE) BACK V IEW (MALE)

PC DC 190

9 PIN D-SUB (FEMALE) 8 PIN DIN (MALE)

PIN SIGNAL SIGNAL PIN

2 RXD RXD 4
3 TXD TXD 5
5 GND GND 2
4 DTR
6 DSR
7 RTS
8 CTS

25 PIN D-SUB (FEMALE) 8 PIN DIN (MALE)

PIN SIGNAL SIGNAL PIN

2 TXD RXD 4
3 RXD TXD 5
7 GND GND 2
4 RTS
5 CTS
6 DSR

20 DTR

9 PIN D-SUB (FEMALE) 9 PIN D-SUB (MALE)

PIN SIGNAL SIGNAL PIN

3 TXD RXD 2
2 RXD TXD 3
5 GND GND 5
4 DTR
6 DSR
7 RTS
8 CTS

25 PIN D-SUB (FEMALE) 9 PIN D-SUB (MALE)

PIN SIGNAL SIGNAL PIN

2 TXD RXD 2
3 RXD TXD 3
7 GND GND 5
4 RTS
5 CTS
6 DSR

20 DTR

DC 190 PRINTER CONNECTION

31

7 PRINTER CONNECTION

DC 190 can be connected to TVP Printer / ELTRON Printer LP2622 and LP2722,
and SE250 / EPSON Printer.

7.1 CONNECTION TO TVP / ELTRON PRINTER

Set the following SPEC :
Baud Rate : 9600 (SPEC 10 bit 1 & 0)
Data Length : 8 bits (SPEC 10 bit 2)
Parity : None (SPEC 11 bit 1 & 0)

Stop Bit : 1 bit (SPEC 10 bit 3)

Printer Type : TVP / ELTRON (SPEC 11 bit 2)
TVP/ELTRON Printer Download Label Format : 0 (SPEC 12 bit 1)

RS232 Output : By * Key (SPEC 12 bit 3 & 2)

Note:

User can choose whether to download 6 default label formats to TVP/ELTRON when DC 190 is power
up.

1. If this option is enable user will have to power up the printer first before DC 190 is power up.

2. If this option is disable there’s no restriction on the power up sequence between DC190 and

printer.

7.2 CONNECTION TO SE250 / EPSON PRINTER

Set the following SPEC :
Baud Rate : 9600 bps (Spec10 bits 1 & 0)
Data Length : 8 bits (Spec10 Bit 2)
Parity : None (Spec11 Bit 1 & 0)
Stop Bit : 1 bit (Spec11 Bit 3)
Printer Type : SE250 / EPSON (Spec11 Bit 2)
RS232 Output : By * Key (Spec12 Bit 3 & 2)

DC 190 PRINTER CONNECTION

32

7.3 RS232 RELATED SPEC LIST : SPEC 8 to 13

The following SPEC must be set correctly for DC190 to communicate with the Printer.

SPEC NO Bit 3 Bit 2 Bit 1 Bit 0

8 RS232C Connection

(Force Balance)
0 : No
1 : Yes

RS232C Data Length
(PC/Force Balance)
(Optional)
0 : 7 bits
1 : 8 bits

RS232C Baud Rate
(PC/Force Balance)
(Optional)
0 0 : 19200 1 0 : 4800
0 1 : 38400 1 1 : 9600

9 RS232C Stop Bit

(PC/Force Balance)
(Optional)
0 : 1 bits
1 : 2 bits

Force Balance Type
0 : Japan
1 : Export

RS232C Parity Bit
(PC/Force Balance)
(Optional)
0 0 : No 1 0 : Not Used
0 1 : Odd 1 1 : Even

10 RS232C Connection

(PC/Printer)
0 : No
1 : Yes

RS232C Data Length
(PC/Printer)
(Optional)
0 : 7 bits
1 : 8 bits

RS232C Baud Rate
(PC/Printer)
(Optional)
0 0 : 19200 1 0 : 4800
0 1 : 38400 1 1 : 9600

11 RS232C Stop Bit

(PC/Printer)
(Optional)
0 : 1 bit
1 : 2 bits

Printer Type
(V2.xx)
0 : TVP Printer/

Eltr on LP2622 or

LP2722

1 : SE250/

EPSON Printer (*6)

RS232C Parity Bit
(PC/Printer)
(Optional)
0 0 : No 1 0 : Not Used
0 1 : Odd 1 1 : Even

12 RS232C Output

(PC/Printer)
(Optional)
0 0 : Not Available
0 1 : When Counting Conditi on (PC)
1 0 : By * Key (PC + Printer)
1 1 : In Both Case

ELTRON/TVP
Printer Download
Label Format
0 : Enable
1 : Disable

RS232C with
Header
(PC)
0 : Yes
1 : No

13 RS232C Header Send

(PC) (V2.xx)
0 : Code
1 : Title

RS232C Connector
D-Sub DIN
0 0 0 : Printer Force Balance
0 0 1 : Force Balance Printer
0 1 0 : Printer PC (*1)

(V2.xx)
0 1 1 : PC Printer (*1) (V2.xx)
1 0 0 : PC Force Balance (V2.xx)
1 0 1 : Force Balance PC (V2.xx)
1 1 0 - 1 1 1 : Not Used

Note:

*6) The Baud Rate, Data Length, Stop Bit and Parity setting for PC based on SPEC 08 and SPEC 09.

Also, when pressing valid print ‘*’, ‘+’ and ‘-’ key, the scale will send data to PC.

DC 190 PRINTER CONNECTION

33

Export Default SPEC: SPEC 8 : 0010
SPEC 9 : 0011

SPEC 10: 0010
SPEC 11: 0011
SPEC 12: 0000
SPEC 13: 0000

Note:
SPEC10 bit 3 for RS232 Connection is disabled in Default SPEC.

SPEC 13 bit 0, 1 & 2 need to be changed before using the Printer.

DC 190 PRINTER CONNECTION

34

7.4 WIRE CONFIGURATION

9 PIN D-SUB 25 PIN D-SUB CONNECTOR 8 PIN DIN PLUG
BACK VIEW (FEMALE) BACK VIEW (FEMALE) BACK VIEW (MALE)

Printer DC 190

9 PIN D-SUB (FEMALE) 8 PIN DIN (MALE)

PIN SIGNAL SIGNAL PIN

2 RXD RXD 4
3 TXD TXD 5
5 GND GND 2
4 DTR
6 DSR
7 RTS
8 CTS

25 PIN D-SUB (FEMALE) 8 PIN DIN (MALE)

PIN SIGNAL SIGNAL PIN

2 TXD RXD 4
3 RXD TXD 5
7 GND GND 2
4 RTS
5 CTS
6 DSR

20 DTR

9 PIN D-SUB (FEMALE) 9 PIN D-SUB (MALE)

PIN SIGNAL SIGNAL PIN

3 TXD RXD 2
2 RXD TXD 3
5 GND GND 5
4 DTR
6 DSR
7 RTS
8 CTS

25 PIN D-SUB (FEMALE) 9 PIN D-SUB (MALE)

PIN SIGNAL SIGNAL PIN

2 TXD RXD 2
3 RXD TXD 3
7 GND GND 5
4 RTS
5 CTS
6 DSR

20 DTR

DC 190 SET POINT CONNECTION

35

8 SET POINT CONNECTION

The number of set point can be set by changing the SPEC setting. The maximum number of set point is 6.
It needs an external voltage (5~24 V) to drive the Set Points.

8.1 PIN CONFIGURATION

PIN SIGNAL

1 Set Point 1

2 Set Point 2
3 Set Point 3
4 Set Point 4
5 Set Point 5
6 Set Point 6
7 External Voltage*
8 GND

8 Pin Mini DIN Plug

Front View

* External voltage is from the range 5 to 24 V DC.

8.2 SET POINT SPEC SETTING

SPEC NO Bit 3 Bit 2 Bit 1 Bit 0

7 Set Point Buzzer

0 : Yes
1 : No

Set Points Latching
(V2.xx)
0 : Latch
1 : No Latch

Set Point Type
0 0 : % Quantity 1 0 : Quantity
0 1 : % Weight 1 1 : Weight

18 Set Point TTL Output

0 : Active low
1 : Active high

Number of Set Points
0 0 0 : 2 Set Points
0 0 1 : 3 Set Points
0 1 0 : 4 Set Points (Not Used for RS485 Network Card)
0 1 1 : 5 Set Points (Not Used for RS485 Network Card)
1 0 0 : 6 Set Points (Not Used for RS485 Network Card)

DC 190 SET POINT CONNECTION

36

8.3 SET POINT SET UP

Below is a chart that show when the LEDs will be light up in latch and no latch condition as per above
set up when set point is reach.

LATCHING

When set point 1 is reach e.g. set point 1 is set to 1,000 pcs and 1,000 pcs is reach or over, LED 1 will
light up.

When set point 2 is reach, LED 1 and 2 would light up together.

When set point 3 is reach, LED 1, 2 and 3 would light up together.

NO LATCHING

When set point 1 is reach, LED 1 will light up while LED 2 and 3 will be off.

When set point 2 is reach, LED 2 will light up while LED 1 and 3 will be off.

When set point 3 is reach, LED 3 will light up while LED 1 and 2 will be off.

OFF

OFF

OFF

ON

ON

ON

LED 1

LED 2

LED 3

LATCH
NO

LATCH

Set
Point 1

Set
Point 2

Set
Point 3

LED 3

LED 2

LED 1

External Voltage (5 ~ 24 V)

1

2

3

7

8

DC 190 BARCODE SCANNER CONNECTION

37

9 BARCODE SCANNER CONNECTION

DC 190 can support these Barcode Scanners :

TTL TYPE (AA ONLY)
Pen Scanner - TESCO TE610RN – Support up to 12 digits

*REMARK : Short 2-3 of JP1 and 1-2 of JP2 on Main board TWB-01900 when using TTL

Barcode Scanner.

RS232C TYPE

Pen Scanner - ZEBEX ZB-800R
Handheld Scanner - PSC Quickscan Scanner

*REMARK : Short 1-2 of JP1 and 2-3 of JP2 on Main board TWB-01900 when using RS232C

Barcode Scanner.

9.1 GENERAL SPECIFICATION

Baud Rate : 1200 / 2400 / 4800 / 9600 bps (SPEC 14 bit 1 & 0)
Data Length : 7 bits / 8 bits (SPEC 14 bit 2)
Parity : None / Odd / Even (SPEC 15 bit 1 & 0)
Stop Bit : 1 bit / 2 bits (SPEC 15 bit 3)
Barcode Type : CODE 39

9.2 DEFAULT SPEC OF BARCODE SCANNER

TTL Pen Scanner, TE610RN

4800 bps, 7 bits, Even and 1 stop bit

Pen Scanner, ZB-800R

9600 bps, 8 bits, None parity and 1 stop bit

Handheld Scanner, PSC Quickscan

9600 bps, 7 bits, None parity and 1 stop bit

Handheld Scanner, PSC Quickscan 6000

9600 bps, 7 bits, None parity and 1 stop bit

9.3 PIN CONFIGURATION

8 PIN DIN PLUG FOR

BARCODE SCANNER

(BACK VIEW)

PIN SIGNAL TE610RN ZB-800R Quickscan PSC Quickscan

6000
2 GND Black Yellow Black Black
4 RXD Yellow Grey Orange Blue
5 TXD Brown Brown White Orange
6 CTS Grey White Blue Yellow (Not Used)
7 RTS Green Green Yellow White (Not Used)
8 VCC Red Red Red Red

DC 190 BARCODE SCANNER CONNECTION

38

9.4 INPUT DATA FORMAT

With Header

Header Data CR

Without header (Can scan ID Code only)

Data CR

9.4.1 3 LINES BARCODE

DC 190 can support 3 Line Barcode (Must be in the Header)

Line 1 :

Space Header Data1 CR

Line 2:

Space Data2 CR

Line3 :

Data3 CR

9.4.2 BARCODE SCANNING MODE:

Below shows the items that can be scan with :

i) OPERATION Mode :

UNIT WEIGHT PART CODE
TARE WEIGHT QUANTITY

ii) PROGRAM Mode :

PART CODE UNIT WEIGHT INVENTORY
PART NO. TARE WEIGHT
PART NAME SET POINTS

iii) JOB SCHEDULE Mode :

PART CODE

9.5 HEADER CODE

DC 190 BARCODE SCANNER CONNECTION

39

The Header Code is used to indicate the type of data that are being scanned. The table below shows
the Header Code for different data. Only these Header Codes are accepted for Barcode Scanning.

Header Code ASCII Code Data Header Code ASCII Code Data

1 31 Unit Weight I 49 Total Quantity
2 32 Quantity K 4B Inventory
3 33 ID Code M 4D Part No

4 34 Tare Weight N 4E Part Name
A 41 Gross Weight Q 51 Set Point 3
E 45 Lot No X 58 Set Point 4

F 46 Set Point 1 [W] Y 59 Set Point 5
G 47 Set Point 1 [Q] O 4F Set Point 6
H 48 Set Point 2

9.6 Z COMMAND CODE

The Barcode Scanner can also Scan Command to DC 190 but it must have a Header Z in front.

Header : Z Command CR

Z + Command Function Z + Command Function

Z0 Re-Zero Z8 NET/B/G Key
Z1 Print Z9 Reprint Label (TNP)
Z2 Unit Weight Clear ZA Re-Computing Key (PCS Key)
Z3 Plus ZS1 Scale 1 (Internal Scale 1)
Z4 Minus ZS2 Scale 2 (Internal Scale 2)
Z5 Tare ZS3 Scale 3 (External Scale)
Z6 Clear ZS4 Scale 4 (Force Balance)
Z7 PLU Key

DC 190 BARCODE SCANNER CONNECTION

40

9.7 RS232C RELATED SPEC LIST : SPEC 14 to 15

The following SPEC must be set correctly for DC190 to communicate with the Barcode Scanner

SPEC NO Bit 3 Bit 2 Bit 1 Bit 0

14

RS232C Connection
(Barcode Scanner)
0 : No
1 : Yes

RS232C Data Length
(Barcode Scanner)
(Optional)
0 : 7 bits
1 : 8 bits

RS232 Baud Rate
(Barcode Scanner)
(Optional)
0 0 : 1200 1 0 : 4800
0 1 : 2400 1 1 : 9600

15

RS232C Stop Bit
(Barcode Scanner)
(Optional)
0 : 1 bits
1 : 2 bits

RS232C with Header
(Barcode Scanner)
0 : Yes
1 : No

RS232C Parity Bit
(Barcode Scanner)
(Optional)
0 0 : No 1 0 : Not Used
0 1 : Odd 1 1 : Even

Export Default SPEC: SPEC 14: 0010
SPEC 15: 0011

Note:

SPEC14 bit 3 for RS232 Connection is disabled in Default SPEC.
In order to Enable Barcode Code Scanning, this bit must be set to 1.

9.8 BARCODE SAMPLE

The barcode formats is using CODE 39 type. Below are some command and data barcodes for testing
purpose. If generate barcode using word processor, please add * before and after the data to indicate
the start and end of barcode. If generate by barcode software or barcode printer, it is not necessary as
it will generate it own start and end of barcode.

REZERO CLEAR SCALE 1

*Z1* *Z6* *ZS1*

Z1 Z6 ZS1

SCALE 2 ID CODE

*ZS2* *312345678*

ZS2 312345678

PART NAME

*NABCDEFGH*

NABCDEFGH

DC 190 FORCE BALANCE CONNECTION

41

10 FORCE BALANCE CONNECTION

DC 190 can support these Force Balances :

Japan Version Only :

SHG 300 (fixed 7 data bits, 1 stop bit and even parity)

Max Capacity : 310g
Minimum Display : 0.001g

HR 60

Max Capacity : 60g
Minimum Display : 0.1g

HR 200

Max Capacity : 210g
Minimum Display : 0.1g

Export Version Only :

Ohaus Explorer 210g

Max Capacity : 210g
Minimum Display : 0.001g

10.1 GENERAL SPECIFICATION

Baud Rate : 4800 / 9600 / 19200 / 38400 bps (SPEC 8 bit 1 &0)
Data Length : 7 bits / 8 bits (SPEC 8 bit 2)
Parity : None / Odd / Even (SPEC 9 bit 1 &0)
Stop Bit : 1 bit / 2 bits (SPEC 9 bit 3)

Force Balance Type : Japan / Export (SPEC 9 bit 2)

-SHG300 / HR200 / HR60 (Japan)

-OHAUS EXPLORER (Export)
Type of Force Balance : SHG300 / HR200 / HR60 (SPEC 19 bit 0)
(Japan Version Only)

10.2 CALIBRATION OF THE SCALE

SHG300 / HR200 / HR60:

Preparation For SHG300/ HR200 / HR60

1. Perform Initial Setup for the Force Balance according to its Service Manual.

2. Calibrate for SHG is not necessary as it will be done on DC190.

3. Set the Force Balance to Display Masked (RS232 mode).

4. Set the baud rate, data length, parity & stop bit.

Linking to DC190

1. Connect two scales with cable.

2. Select Scale 4 by pressing Scale key several times.

3. Go to calibration mode at DC190 by pressing REZERO +8715 (Span Switch ON)

4. Remove all weight in Force Balance and press Rezero on DC190 and check for HR200 or HR60

For SHG300 and HR200

5. Place 200g on DC190.

6. Enter 200.00 on DC190 and press * key

7. After Calibration, Exit by pressing Mode key.

DC 190 FORCE BALANCE CONNECTION

42

For HR60

5. Place 60g on DC190.

6. Enter 60.000 on DC190 and press * key

7. After Calibration, Exit by pressing Mode key.

OHAUS EXPLORER :

Preparation For EXPLORER

1. Perform Initial Setup For EXPLORER according to its Service Manual.

2. Set the RS232 setting in EXPLORER.

3. Set Auto Print with Continuously option.

4. Set Numeric Only to Off.

5. Set the Unit to OZ or G.

Linking to DC190

1. Connect two scales with cable.

2. Select Scale 4 by pressing Scale key several times.

3. Calibration is not needed

Note:

1. Re-zero and zero tracking are disabled when using EXPLORER.
Weight Display in DC 190 will mask.

2. The negative start range for oz mode can up to around –3.00000oz of the capacity.

3. The max tare range for oz mode can up to 7oz.

10.3 FORCE BALANCE SPEC SETTING

The following SPEC must be set correctly for DC190 to communicate with the Force Balance.

SPEC NO Bit 3 Bit 2 Bit 1 Bit 0

8 RS232C Connection

(Force Balance)
0 : No
1 : Yes

RS232C Data Length
(PC/Force Balance)
(Optional)
0 : 7 bits
1 : 8 bits

RS232C Baud Rate
(PC/Force Balance)
(Optional)
0 0 : 19200 1 0 : 4800
0 1 : 38400 1 1 : 9600

9 RS232C Stop Bit

(PC/Force Balance)
(Optional)
0 : 1 bits
1 : 2 bits

Force Balance Type
0 : Japan
1 : Export

RS232C Parity Bit
(PC/Force Balance)
(Op tional)
0 0 : No 1 0 : Not Used
0 1 : Odd 1 1 : Even

13 RS232C Header Send

(PC) (V2.xx)
0 : Code
1 : Title

RS232C Connector
D-Sub DIN
0 0 0 : Printer Force Balance
0 0 1 : Force Balance Printer
0 1 0 : Printer PC (*1) (V2.xx)
0 1 1 : PC Printer (*1) (V2.xx)
1 0 0 : PC Force Balance (V2.xx)
1 0 1 : Force Balance PC (V2.xx)
1 1 0 - 1 1 1 : Not Used

19 Display “Not F”

message for item that
is not stored in
memory before
(V2.xx)
0 : Yes
1 : No

Link to IMS
(For US Version in
V2.xx)
0 : No
1 : Yes

Type of Force Balance
(Japan Version Only)
0 0: SHG -300
0 1: HR-200
1 0: HR-60
1 1: Not Used

DC 190 FORCE BALANCE CONNECTION

43

Export Default SPEC: SPEC 08: 0010
SPEC 09: 0011
SPEC 13: 0000
SPEC 19 0000

Note:
SPEC 08 bit 3 for RS232 Connection is disabled in Default SPEC.
SPEC 13 bit 0, 1 & 2 need to be changed before using the Force Balance.

DC 190 FORCE BALANCE CONNECTION

44

10.4 WIRE CONFIGURATION

9 Pin D-Sub Connector 9 Pin D-Sub Connector 8 Pin DIN Connector
Back View (Male) Back View (Female) Back View (Male)

DC 190 SHG300
8 Pin DIN (Male) 8 Pin DIN (Male)

SIGANL PIN PIN SIGNAL

GND 2 2 GND
RXD 4 4 TXD
TXD 5 5 RXD

CTS 6 6 RTS

DC 190 SHG 300
9 Pin D-Sub (Male) 8 Pin DIN (Male)

SIGANL PIN PIN SIGNAL

GND 5 2 GND
RXD 2 4 TXD
TXD 3 5 RXD

CTS 6 6 RTS

DC 190 Ohaus Explorer 210g
8 Pin DIN (Male) 9 Pin D-Sub (Female)

SIGANL PIN PIN SIGNAL

GND 2 7 GND
RXD 4 2 TXD
TXD 5 3 RXD

CTS 6 8 RTS

5 CTS
6 DTR

DC 190 Ohaus Explorer 210g
9 Pin D-Sub (Male) 9 Pin D-Sub (Female)

SIGANL PIN PIN SIGNAL

GND 5 7 GND
RXD 2 2 TXD
TXD 3 3 RXD

CTS 6 8 RTS

5 CTS
6 DTR

DC 190 CIRCUIT DIAGRAM

45

11 CIRCUIT DIAGRAM

11.1 BLOCK DIAGRAM

11.1.1 WITH MAINBOARD TWB-01900

DC 190 CIRCUIT DIAGRAM

46

11.1.2 WITH MAINBOARD TWB-01901

DC 190 CIRCUIT DIAGRAM

47

11.2 DC 190 MAIN BOARD TWB-01900-3 (PAGE 1 OF 3)

DC 190 CIRCUIT DIAGRAM

48

11.2.1 DC 190 MAIN BOARD TWB-01900-3 (PAGE 2 OF 3)

DC 190 CIRCUIT DIAGRAM

49

11.2.2 DC 190 MAIN BOARD TWB-01900-3 (PAGE 3 OF 3)

DC 190 CIRCUIT DIAGRAM

50

11.3 DC 190 MAIN BOARD TWB-01901-0 (PAGE 1 OF 4)

DC 190 CIRCUIT DIAGRAM

51

11.3.1 DC 190 MAIN BOARD TWB-01901-0 (PAGE 2 OF 4)

DC 190 CIRCUIT DIAGRAM

52

11.3.2 DC 190 MAIN BOARD TWB-01901-0 (PAGE 3 OF 4)

DC 190 CIRCUIT DIAGRAM

53

11.3.3 DC 190 MAIN BOARD TWB-01901-0 (PAGE 4 OF 4)

DC 190 CIRCUIT DIAGRAM

54

11.4 DC 190 A/D BOARD TWB-01930-1

DC 190 CIRCUIT DIAGRAM

55

11.5 DC 190 FILTER BOARD TWB-01940-0

DC 190 CIRCUIT DIAGRAM

56

11.6 DC 190 A/D CONNECTOR BOARD TWB-01950-1

DC 190 CIRCUIT DIAGRAM

57

11.7 DC 190 CONNECTOR BOARD TWB-01921-1

DC 190 CIRCUIT DIAGRAM

58

11.8 DC 190 RS232 / 4 LINE INTERFACE BOARD TWB-01970-0 (PAGE 1 OF 2)

DC 190 CIRCUIT DIAGRAM

59

11.8.1 DC 190 RS232 / 4 LINE INTERFACE BOARD TWB-01970-0 (PAGE 2 OF 2)

DC 190 CIRCUIT DIAGRAM

60

11.9 DC 190 KEY BOARD TPB-1672-3

DC 190 CIRCUIT DIAGRAM

61

11.10 DC 190 POWER BOARD TWB-01911-1

DC 190 APPENDIX A

62

12 APPENDIX A

Teraoka

Code

ASCII Char

Teraoka

Code

ASCII Char

Teraoka

Code

ASCII Char

00 20 SP 35 35 5 70
01 41 À 36 36 6 71
02 42 B 37 37 7 72
03 43 C 38 38 8 73
04 44 D 39 39 9 74
05 45 Å 40 40 @ 75
06 46 F 41 21 ! 76
07 47 G 42 22 “ 77
08 48 H 43 23 # 78
09 49 I 44 24 $ 79
10 4A £ 45 25 % 80
11 4B Ê 46 26 & 81
12 4C L 47 2F / 82
13 4D Ì 48 28 ( 83
14 4E N 49 28 ) 84
15 4F Î 50 27 ‘ 85
16 50 P 51 86
17 51 Q 52 87
18 52 R 53 88
19 53 S 54 89
20 54 Ò 55 90
21 55 U 56 91
22 56 V 57 92
23 57 W 58 93
24 58 X 59 94
25 59 Y 60 95
26 5A Z 61 96
27 2C , 62 97
28 2E . 63 98
29 2D - 64 99 0D CR
30 30 0 65
31 31 1 66
32 32 2 67
33 33 3 68

34 34 4 69

DC-190 Limited Warranty

Rice Lake Weighing Systems (RLWS) warrants that all RLWS equipment and systems properly installed by a
Distributor or Original Equipment Manufacturer (OEM) will operate per written specifications as confirmed
by the Distributor/OEM and accepted by RLWS. All systems and components are warranted against defects
in materials and workmanship for one year.

RLWS warrants that the equipment sold hereunder will conform to the current written specifications
authorized by RLWS. RLWS warrants the equipment against faulty workmanship and defective materials. If
any equipment fails to conform to these warranties, RLWS will, at its option, repair or replace such goods
returned within the warranty period subject to the following conditions:

• Upon discovery by Buyer of such nonconformity, RLWS will be given prompt written notice with a detailed explanation

of the alleged deficiencies.

• Individual electronic components returned to RLWS for warranty purposes must be packaged to prevent electrostatic

discharge (ESD) damage in shipment. Packaging requirements are listed in a publication, “Protecting Your Components
From Static Damage in Shipment,” available from RLWS Equipment Return Department.

• Examination of such equipment by RLWS confirms that the nonconformity actually exists, and was not caused by

accident, misuse, neglect, alteration, improper installation, improper repair or improper testing; RLWS shall be the sole
judge of all alleged non-conformities.

• Such equipment has not been modified, altered, or changed by any person other than RLWS or its duly authorized repair

agents.

• RLWS will have a reasonable time to repair or replace the defective equipment. Buyer is responsible for shipping charges

both ways.

• In no event will RLWS be responsible for travel time or on-location repairs, including assembly or disassembly of

equipment, nor will RLWS be liable for the cost of any repairs made by others.

THESE WARRANTIES EXCLUDE ALL OTHER WARRANTIES, EXPRESSED OR IMPLIED,
INCLUDING WITHOUT LIMITATION WARRANTIES OF MERCHANTABILITY OR FITNESS
FOR A PARTICULAR PURPOSE. NEITHER RLWS NOR DISTRIBUTOR WILL, IN ANY EVENT,
BE LIABLE FOR INCIDENTAL OR CONSEQUENTIAL DAMAGES.

RLWS AND BUYER AGREE THAT RLWS’S SOLE AND EXCLUSIVE LIABILITY HEREUNDER
IS LIMITED TO REPAIR OR REPLACEMENT OF SUCH GOODS. IN ACCEPTING THIS
WARRANTY, THE BUYER WAIVES ANY AND ALL OTHER CLAIMS TO WARRANTY.

SHOULD THE SELLER BE OTHER THAN RLWS, THE BUYER AGREES TO LOOK ONLY TO
THE SELLER FOR WARRANTY CLAIMS.

No terms, conditions, understanding, or agreements purporting to modify the terms of this warranty shall have any legal effect unless
made in writing and signed by a corporate officer of RLWS and the Buyer.

© 2002 Rice Lake Weighing Systems, Inc. Rice Lake, WI USA. All Rights Reserved.

RICE LAKE WEIGHING SYSTEMS

• 230 WEST COLEMAN STREET • RICE LAKE, WISCONSIN 54868 • USA