ELCOM Euro-500T Handy User manual

Brand: ELCOM

Model: Euro-500T Handy

Type: User manual

Euro-500T Handy

Service manual

Version 1.0

Euro-500 Handy

Neither this manual, or any part of it, may be copied or distributed without

the consent of the Elcom company.

All rights of Elcom Ltd. are reserved.

Service manual

Euro-500T Handy

Table of contents

1 INTRODUCTION ............................................................................................................................ 5

1.1 Euro-500T Handy cash register technical parameters ............................................................ 5

1.2 System configuration ................................................................................................................. 5

1.3 Cash register block diagram...................................................................................................... 5

2 CIRCUIT SCHEMES AND FUNCTIONS ........................................................................................ 6

2.1 Connection circuits .................................................................................................................... 6

2.1.1 External power supply ..................................................................................................... ............. 6

2.1.2 Primary connection circuit ............................................................................................................ 6

2.1.3 Voltage stabilizer .......................................................................................................................... 7

2.1.4 Printer connection circuit ..............................................................................................................8

2.1.5 Secondary connection circuit ....................................................................................................... 8

2.1.6 Circuit for connecting the fiscal memory ....................................................................................... 9

2.1.7 Power supplies characterisation ................................................................................................... 9

2.2 Micro-controller and its support circuits ................................................................................ 10

2.2.1 E-500N micro-controller ............................................................................................................. 10

2.2.2 Memory circuits .......................................................................................................................... 12

2.2.3 System start and outage ............................................................................................................ 13

2.2.4 Current time circuit ..................................................................................................................... 13

2.3 Input-Output circuits ................................................................................................................. 14

2.3.1 Print control circuits .................................................................................................................... 14

2.3.2 Keyboard .................................................................................................................................... 16

2.3.3 Displays ..................................................................................................................................... 17

2.3.4 Communication circuits .............................................................................................................. 20

2.3.5 Interconnection of FM circuits ..................................................................................................... 21

2.3.6 Other circuits ............................................................................................................................. 22

3 THE MLT-288 THERMAL PRINTER ............................................................................................ 24

3.1 Basic layout ............................................................................................................................... 24

3.2 Thermal head ............................................................................................................................ 24

3.2.1 Thermal head composition ......................................................................................................... 24

3.2.2 Thermal head data processing ................................................................................................... 25

3.2.3 Print data and their position ........................................................................................................ 25

3.2.4 Thermistor layout ....................................................................................................................... 25

3.2.5 Time chart .................................................................................................................................. 25

3.3 Paper shifting ............................................................................................................................ 26

3.3.1 Stepping motor layout ................................................................................................................. 26

3.3.2 Excitation sequence ................................................................................................................... 26

3.3.3 Control circuit ............................................................................................................................. 26

3.4 Sensor of head position ........................................................................................................... 27

3.5 Sensors of paper ribbon end ................................................................................................... 27

3.6 Overall time chart ...................................................................................................................... 27

3.7 Printer connectors .................................................................................................................... 28

3.7.1 Thermal head connector ............................................................................................................ 28

3.7.2 Motor and sensors terminal ........................................................................................................ 29

3.8 How to clean thermal head ...................................................................................................... 29

4 MODULE (RE)INSTALLATION .................................................................................................... 30

4.1 Dismantling the cash register .................................................................................................. 30

4.2 Accumulator replacement ........................................................................................................ 32

4.3 Printer replacement .................................................................................................................. 33

4.4 Motor replacement .................................................................................................................... 34

4.5 Electronics mainboard replacement ....................................................................................... 35

4.6 EPROM replacement ................................................................................................................ 36

4.7 Replacement of damaged SRAM or replacement of SRAM with higher capacity .............. 36

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Euro-500T Handy

4.8 NiCd battery replacement ........................................................................................................ 37

4.9 Keys and keyboard replacement ............................................................................................ 37

4.10 Replacement of displays .......................................................................................................... 39

4.10.1 Replacement of Euro-500T Handy (segment/segment) displays ................................................ 39

4.10.2 Replacement of Euro-500T Handy (alpha/segment) displays ..................................................... 40

4.11 Cash register connectors ........................................................................................................ 41

4.11.1 Connectors on mainboard of electronics ....................................................................................41

4.11.2 Connectors for connecting external appliances .......................................................................... 41

4.12 Back-light installation of segmented LCD display ................................................................ 42

4.13 Connecting of external drawer ................................................................................................ 43

4.14 Connecting of external keyboard ............................................................................................ 44

4.15 Interconnecting of Euro-500T Handy and PC through RS-232 interface ............................ 45

4.16 Connecting of scanner and scales through RS-232 interface ............................................. 45

5 CASH REGISTER TESTING ........................................................................................................ 46

5.1 Test of displays ......................................................................................................................... 46

5.2 Printer test ................................................................................................................................. 47

5.2.1 Testing of printing ....................................................................................................................... 47

5.2.2 Testing of scanning the thermal printer head position .................................................................. 47

5.2.3 Testing of paper ribbons sensors .......................................................................................... ...... 48

5.3 Keyboard tests .......................................................................................................................... 48

5.3.1 Keyboard test 1 .......................................................................................................................... 48

5.3.2 Keyboard test 2 .......................................................................................................................... 49

5.4 Communication interface tests ............................................................................................... 50

5.4.1 Test of RS-232C serial interface for the PC ................................................................................50

5.4.2 Test of RS-232C serial interface for the scanner and electronic scales ...................................... 50

5.4.3 The test of serial interface for the external PC keyboard ............................................................. 51

5.5 Test of cash register drawer .................................................................................................... 52

5.6 Fiscal memory tests .................................................................................................................. 52

5.6.1 Tests of data reading from the fiscal memory ............................................................................. 52

5.6.2 Test of data recording to the fiscal memory ................................................................................53

5.6.3 The operating voltage control for the fiscal memory .................................................................... 53

5.6.4 The test of the control signals I for the fiscal memory ................................................................. 54

5.6.5 The test of the control signals II for the fiscal memory................................................................. 54

5.7 Test of the control sum of EPROM memory ........................................................................... 55

5.8 Battery tests .............................................................................................................................. 55

5.8.1 The test of battery condition ........................................................................................................ 55

5.8.2 The test of VCC1 supply ............................................................................................................. 55

6 FAILURE REMOVAL .................................................................................................................... 56

6.1 Failures in supply section ........................................................................................................ 56

6.2 Failures of micro-processing system ..................................................................................... 57

6.3 Failures of print ......................................................................................................................... 58

6.4 Failures of visual display ......................................................................................................... 60

6.5 Failures of keyboard ................................................................................................................. 60

6.6 Failures of communication ...................................................................................................... 61

6.7 Failures of current date and time............................................................................................. 61

6.8 Other failures ............................................................................................................................. 61

7 THE LISTS OF PCB COMPONENTS .......................................................................................... 62

7.1 Classification of cash register components .......................................................................... 62

7.2 List of electronics mainboard components ........................................................................... 62

7.3 List of keyboard components..................................................................................................69

7.4 List of display segmented module components ................................................................... 69

7.5 List of components on board of connectors ......................................................................... 70

7.6 List of components on interconnection board ...................................................................... 70

7.6.1 List of components on interconnection board of Euro-500T Handy (segment/segment) .............. 70

7.6.2 List of components on interconnection board of Euro-500T Handy (alpha/segment) ................... 71

Service manual

Euro-500T Handy

1 Introduction

1.1 Euro-500T Handy cash register technical parameters

The Euro-500T Handy is a portable electronic cash register with the following technical parameters:

 primary connection external adapter 230 V, 50-60 Hz/12 V, 1200 mA

 internal connection NiMh accumulator 7,2 V, 1500 mAh

or lead accumulator 6 V, 1200 mAh

 maximum power consumption 10 W

 micro-processing system 16-bit micro-controller, 256 kB EPROM, 128 or 512 kB

 memory backup NiCd accumulator 3,6 V, 60 mAh

 printer electrothermal, CITIZEN MLT-288

 customer and cashier display 2x segmented LCD

alphanumeric LCD 2x20 characters for cashier, segmented LCD for customer

 keyboard 30 regular keys and 1 double key

1.2 System configuration

The Euro-500T Handy is designed as a portable electronic cash register. The main parameters of a portable cash register are: low

weight, small size and a guarantee of longevity without an external connection.

The E-500N 16-bit micro-controller with 11 I/O ports and 2 portable channels is the center of the cash register. The cash register

program is stored in the 256 kB EPROM. Depending on the program version in EPROM memory, the micro-controller works with

RAM memory with a capacity of either 128 or 512 kB.

System contains:



connecting circuits



micro-processing system



current time circuit



reset controller (reset control circuit)



circuit controlling power supply value



keyboard interface



display interface



printer interface



RS-232 serial interfaces for PC, scanner and electronic scales



interface for connecting external PC keyboard



circuits for power reduction



circuit for drawer opening



circuit for scanning paper ribbon end



back-light of cashier display (optional for segment cashier display)



back-light of customer display (optional)



fiscal memory with support circuits (optional)



external accumulator - battery box (optional)

1.3 Cash register block diagram

EPROM

256 kB

SRAM

128 (512) kB

8-bit data bus

19-bit address busA 0 - A 1 8

D 0 - D 7

Current

time circuit

RS 232

interface for PC

RS 232 inter-

face for scanner

and scales

External

PC keyboard

Power voltage

checking

Paper ribbon

present

checking

Display

Fiscal

memory

Printer

Keyboard

Control bleeding

current circuit

MICROCONTROLLER

E-500N

Service manual

Euro-500T Handy

2 Circuit schemes and functions

2.1 Connection circuits

2.1.1 External power supply

230 V, 50-60 Hz/12 V 1200 mA network adapter functions as an external power supply.

It has two main functions:

 the cash register is connected directly to a 230 V/50 Hz ground socket

 recharging of the internal accumulator is provided through the primary connection circuit

2.1.2 Primary connection circuit

If the external power supply is used, the primary connection circuit provides for recharging of the internal accumulator and for

connecting of the cash register. The basic component of this circuit is a universal MC34167 (5 A) unidirectional inverter with a

built-in high-voltage and thermal protection. The high-voltage protection operates at 6,5 A. Being a switching supply with a

voltage oscillation frequency of 72 kHz, it prevents network interference. Its 80% efficiency provides for the effective voltage

conversion and low loss of heat (minimum requirements for circuit cooling).

Figure 2.2 Primary connection circuit

Figure 2.1 External power supply

Note: After connecting the external power supply to the cash register, recharging of the internal accumulator is possible even

if the cash register is switched off.

INPUT

AC 230V/50Hz

TRANSFORMER

D1 D2

D3 D4

OUTPUT

DC 12V

RESETABLE THERMAL FUSE

330u/25V

2200u/25V

6k8

10k

6k8

68k

1N5822

U13

MC33167+cooler

1u/35V

EMI

FILTER

EF1

2x3,3mH/1,5A

VIN

ADP+

ADP-

VSS

100n

120u (2A)

C1x

1u/35V(A)

C2x

1u/35V(A)

2k2

JPB2

BATSEL2

1N5822

470R

8,85V± 0,05V (NiMh Battery)

6,9V±0,1V (Sealed Battery)

BATSEL2 interconnected for NiMh battery

BATSEL2 not interconnected for sealed battery

Service manual

Euro-500T Handy

+4,9 ±0,05V (only if SAVEPWR is logic 1)

330u/25V

VCC1VCC

SAVEPWR

T15

RFP15P05 (SFP9Z34)

R29

100k

T14

BC817

R35

100k

T16

BC817

R113

100k

LVOFF/NMI

+5 ±0,05V

+ 4,8 ± 0,05V

BATSEL3 is interconnected for sealed battery

BATSEL3 is not interconnected for NiMh battery

BATT

AVA 5400-2P-S

510R

1k0/F

2200u/25V

BT1

3V6, 60mAh

VCC

VRAM

VBAT

1N5819

U14

KA278R05

3.15A+holder

JP1

Batt 3p

VCC

GND

RST

U12

V6340/F

6k8

LVOFF/NMI

VBAT1

1u/35V

PWRSW

AVA 5400-2P-S

1N5822

D20

LL4148

JBP3

BATSEL3

C13

100n

C70

100n

R30

R112

47k

VBATf

NMI

RST

GND

N.C.

U12A

NCP301LSN45T1

LVOFF/NMI

COMPIN

Values of components for different comparators:

V6340/F NCP301LSN45T1

R112

47K 0R

6k8 22k/F

2k/F510R

R50

47k 10k

2.1.3 Voltage stabilizer

To reduce the amount of power, logical circuits of the cash register are divided into two groups:

1. the group connected by VCC voltage, which can be switched on only by a PWSWR switch

2. the group connected by VCC1 voltage, which can be switched by the micro-processor only when printing,

communicating and recording into the fiscal memory

The U14 voltage stabilizer functions as a means to switch on and stabilize a VCC connecting voltage for the first group of the cash

register logical circuits. The circuit was designed to be switched on by a PWRSW on/off switch connected through AVA 5400-2P-S 2-

pin connector. T14, T15, and T16 transistors produce VCC1 voltage for the second group of logical circuits. They are operated by a

micro-processor SAVEPWR signal. An integrated U12 circuit controls the values of the battery voltage. If the voltage gets too low it

automatically generates the signal for switching off the supply.

To keep current time and data stored in RAM memory, the cash register is supplied with a reserve BT1 battery. When the cash register

is switched on the battery is being recharged through R9 resistor and when the cash register is switched off it serves as a supply of the

reserve voltage.

Figure 2.3 Voltage stabilizer

Measured values:

VBAT1: 6,0 V +0,3 V -1 V; when using the internal accumulator without the connected external adapter

(the supply is automatically switched off at a voltage of 5 V),

6,9 V ±0,2 V; when using the lead accumulator with the connected external adapter.

VBAT1: 7,6 V +0,9 V, -1 V; when using the internal NiMh accumulator without the connected external adapter

(the supply is automatically switched off at a voltage of 6,6 V),

8,4 V +0,2 V, -0,6 V; when using NiMh accumulator with the connected external adapter.

VRAM: 4,8 V ±0,05 V; when the cash register is switched on (VCC = 5 V),

3,6 V +0,5 V -0,1 V; when the cash register is switched off (VCC = 0 V).

Note: The removal of the JP1 jumper when the cash register is switched off will cause the deletion of all data in RAM memory and in

the current time circuit.

Internal accumulator scheme

Accumulator BATT

+ (red) 2

- (black) 1

Service manual

Euro-500T Handy

2.1.4 Printer connection circuit

The printer connection circuit stabilizes the VH connecting voltage for the printer power circuits. This voltage is at the same time

the input voltage for the secondary connection circuit.

To guarantee the security, the supply is controlled by LVOFF/NMI signal too (switching off at the drop of a battery voltage). The

micro-processor activates the VH voltage circuit with a SAVEPWR signal only when the cash register is not in the save or

standby mode. A cut-off of D15 diode by JPB3 jumper occurs only when using the lead battery.

Measured values:

It is possible to measure VH voltage only when printing or testing (test 910, see the chapter 5).

VH - in a version with the lead battery; the VH values are very close to those of VBAT1 given in the chapter 2.1.3,

- in a version with NiMh battery; comparing the VBAT1 and VH values, the latter are lower approximately

by 0,8 - 1 V (loss in D15 diode).

Figure 2.4 Printer connection circuit

2.1.5 Secondary connection circuit

The secondary connection circuit produces the voltage necessary for work with the fiscal memory.

The secondary connection circuit functions as a switching supply with 87% efficiency and a switching frequency of 33 kHz. VH

voltage becomes an input voltage of the secondary connection circuit. The output voltage of this circuit is 13,5 V. The inverter

contains a high-voltage and thermal protection. The high-voltage protection activates when the value of power supply is higher

than 1,35 A.

Figure. 2.5 Secondary connection circuit

BATSEL1 is interconnected for sealed battery

BATSEL1 is not interconnected for NiMh battery

R20

100k

R21

LVOFF/NMI

R22

100k

RST

RFP15P05 (SFP9Z34)

BC817

R28

100k

SAVEPWR

D15

1N5408

JPB3

BATSEL1

VBATf

U15

MC34063

R13

220R

R14

0R22

R12

22k/F

R10

2k0/F

C12

330u/25V

1N5819

13,5 V

R11

220R

C11

100n

C10

120u (625mA)

Service manual

Euro-500T Handy

2.1.6 Circuit for connecting the fiscal memory

When using the fiscal memory, a production of the voltages for programming, verification, and reading data from this memory is

inevitable. The voltages are produced with a help of the following circuit.

Measured values:

VPP-GEN = log. 0 VFP: 4,8 V ±0,1 V VFD: 4,8 V ±0,1 V (independent on SAWEPWR)

VPP-GEN = log. 1 VFP: 13 V ±0,5 V VFD: 6,4 V ±0,15 V (SAVEPWR = log. 1)

Figure 2.6 Circuit for connecting FM

2.1.7 Power supplies characterisation

VH connecting of the printer power circuits and of the secondary connection circuits

values: 6V +0,3V -1 Vfor the lead battery without the external adapter,

6,5 ±0,3V for the lead battery with the external adapter,

7,6 +0,8V -1V for NiMh battery without the external adapter,

8,4 +0,2V -1V for NiMh battery with the external adapter.

VCC connecting of a logical part

value: 5 V ±0,1 V.

VRAM power supply of the micro-processor, of RAM memory, and of the current time

values: 4,1V +0,1V -0,5V when the cash register is switched on,

3,6V + 0,5V -0,1V when the cash register is switched off.

R18

220R/F

VFD

VFP

Vout

Vin

Adj

U16

LM317L

R15

100k

R17

100k

R16

100k

RST

VPP-GEN

13,5 V

1N5819

VCC

R19

1k0/F

1N5819

VCC

C14

100n

LL4148

BC817

BSS84

C49

1u/35V

VFP

C15

1u/35V

C15x

1u/35V(A)

C49x

1u/35V(A)

D18

LL4148

PV PV

Service manual

Euro-500T Handy

2.2 Micro-controller and its support circuits

2.2.1 E-500N micro-controller

The E-500N 16-bit micro-controller used in the Euro-500T Handy cash register secures complete control over the cash register activity.

Its characteristics are:

 chip has 2 kB RAM

 11 input-output ports

 addressing of program memory max. 16 MB

 addressing of data memory max. 16 MB

 five 16-bit readers/timers

 seven external interruptions

 two complete USART duplexes (serial channels)

 10-bit A/D inverter, eight channels

 8-bit D/A inverter, two channels

 watchdog timer

 timing frequency up to 18 MHz

 oscillator and chip conjugation circuit

 QFP 100 case

See Figure 2.7 for the circuit pin layout and Table 2.1 for its description.

Figure 2.7 E-500N micro-controller

VRAMx

FM-AL/CN0

FM-A H/CN1

A16/CN2

FM-DIR/SCL

SDA

FM-SEL

FM-P GM

VPP-GEN

GND

TX D0

TX D1

RXD0

RXD1

EKB-DAT

EKB-CLK

FD0

FD1

FD2 /RW2

FD3 /RW3

FD4 /RW4

FD5 /JP4

FD6 /JP5

GND

A14

A15

A16

A17

A18

GND

LCD-SEL

STBY

RST

GND

EXTAL

XTAL

VRAMx

MD0

MD1

MD2

E - 500N

-S

-L

LCD-CLK

LCD-D/DPR

NMI

HWR

Service manual

Euro-500T Handy

Pin #. Signature Type Signal description

1 VRAMx I +5V power supply

2 FM-AL/CN0 O validity of lower address byte for FM / keyboard control

3 FM-AH/CN1 O validity of higher address byte for FM / keyboard control

4 A16/CN2 O highest address bit for FM / keyboard control

5 FM-DIR/SCL O permission to read data from FM / clock signal for serial EPROM

6 SDA I/O data conductor for communication with serial EPROM

7 FM-SEL O choice of FM circuits

8 FM-PGM O control signal for FM programming

9 VPP-GEN O signal of program voltage control for FM

10 NC NC

11 GND I 0 V power supply

12 TXD0 O serial data output, channel 0

13 TXD1 O serial data output, channel 1

14 RXD0 I serial data input, channel 0

15 RXD1 I serial data input, channel 1

16 EKB-DAT I/O data conductor for communication with external keyboard

17 EKB-CLK O clock signal for external keyboard

18 FD0 I/O 0.bit FM data

19 FD1 I/O 1.bit FM data

20 FD2/RW2 I/O 2.bit FM data / scanning keyboard

21 FD3/RW3 I/O 3.bit FM data / scanning keyboard

22 GND I 0 V power supply

23 FD4/RW4 I/O 4.bit FM data / scanning keyboard

24 FD5/JP4 I/O 5.bit FM data / scanning JP4 jumper condition

25 FD6/JP5 I/O 6.bit FM data / scanning JP5 jumper condition

26 FD7/JP6 I/O 7.bit FM data / scanning JP6 jumper condition

27-34 D0-D7 I/O data bus

35 VRAMx I +5 V power supply

36-43 A0-A7 O address bus

44 GND I 0 V power supply

45-55 A8-A18 O address bus

56 NC NC

57 GND I 0 V power supply

58 LCD-SEL O activation signal of display controller

59 LCD-CLK O clock impulse generation for LCD controller

60 LCD-D/DPR O data for LCD conductor / data for printer

61 NC NC

62 STBY I input for hardware standby mode

63 RST I input for reset signal

64 NMI I unmasked interference input

65 GND I 0 V power supply

66 EXTAL I input for external oscillator

67 XTAL I input for external oscillator

68 VRAMx I +5 V power supply

69 NC NC

70 RD O signal for reading data from activated circuit

71 HWR O signal for recording data to activated circuit

72 NC NC

73-75 MD0-MD2 I choice of processor operating mode

76 AVCC I internal D/A and A/D inverter connection

77 VREF I reference voltage of internal D/A and A/D inverter

78 TSx I input for scanning printer head temperature

79 POWER I scanning presence and voltage value of primary supply

80 P-LOW I scanning voltage value of internal connecting accumulator

81 PS1x I scanning paper ribbon presence

82 PS2x I scanning paper ribbon presence

83 HSx I scanning printer head position

84 DRAWER O control signal for drawer opening

85 BUZZER O buzzer control

86 GND I 0 V power supply

87 RDKEYB O signal for reading keyboard and JP4 - JP6 jumper condition

88 RW1 I scanning keyboard

Service manual

Euro-500T Handy

Table 2.1 Description of E-500N micro-controller signals

2.2.2 Memory circuits

The cash register memory that the micro-controller uses is divided into two basic parts:

 program memory

 data memory

The EPROM-type memory, with a capacity of 256 kB, functions as a program memory. RAM 128 kB static memory (68C1000,

66C1024), whose capacity can be extended to up to 512 kB, is used as a data memory. The program memory (EPROM) is

activated with a CS0 signal. The data memory (SRAM) is activated with a CS1 signal.

The Euro-500T Handy cash register uses the data memory with an ultra-low input rate that lowers the requirements for connection and

prolongs data storage in the memory by means of a reserve accumulator. The choice of other types with the same capacity can

aggravate the parameters of memory operations, cause a higher rate of bus interference, and shorten the data storage period.

Therefore, only the use of original types of memory is recommended.

The reserve accumulator keeps the memory connected so that RAM memory can store data even when the cash register is

switched off.

Figure 2.8 Memory scheme

Note: Chapter 4 provides the steps needed to extend the Euro-500T Handy cash register data memory to up to 512 kB.

A10

A11

A12

CS1

A17

A13

A14

A15

A16

A18

KM681000A

A10

A11

A12

A13

A14

A15

A16

S17

A18

CS1

HWR

R25

0R(opt. 4000)

A17 S17

A10

A11

A12

A13

A14

A15

DQ0

DQ1

DQ2

DQ3

DQ4

DQ5

DQ6

DQ7

A16

A17

VPP

PGM

27C2001+Socket

A10

A11

A12

A13

A14

A15

A16

A17

VCC

CS0

R27

10k

VRAM

CS1

R26

10k

VRAM

Pin #. Signature Type Signal description

89 CS2 O current time circuit activation

90 CS1 O RAM memory activation

91 CS0x O program memory activation

92 GND I 0 V power supply

93 PR-SEL O

activation of circuit for production of STB1  STB6, W-MOT and PLATCH

signals

94 UNMTPCLK O

output of impulses for circuit producing clock impulses for data transmission to

printer

95 A O 1. phase of printer stepping motor

96 B O 2. phase of printer stepping motor

97 SAVEPWR O signal of switching between normal and saving mode

98 EN O activation signal of stepping motor drivers

99 CS4 O

signal of data recording to circuit for production of STB1  STB6, WMOT and

PLATCH signals

100 NC NC

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Euro-500T Handy

2.2.3 System start and outage

For the successful start of the system, initialize the micro-controller and all logical circuits correctly. When the system is about to be

switched off, it is required to store all important data plus to enable the transmission of the micro-controller and logical circuits into a

secure position.

The connection of the E-500N micro-controller has been implemented so that it is powered by a reserve NiCd battery after the cash

register is switched off. Its power supply is VRAM (power consumption is about 500 nA). For correct switching on/off of the system,

it is necessary to know how to activate the Reset and STBY signals properly. These signals are controlled by the Reset and STBY

controllers.

The Reset controller is a circuit with these functions:

 reliable E-500N micro-controller initialization when the cash register is switched off by means of active Reset signal

level

 reset signal activation during the drop of VCC power supply down to the circuit threshold level

The active level of the Reset signal is log.0. The active level rate is min. 150 ms.

The circuit threshold level is a voltage from which the Reset signal is generated. The value of this level is very important if proper activity

of the logical circuits is to be secured. The V6309/L of this cash register has its threshold level at 4,5V. The V6309/L circuit resets the

CPU when the power supply is lower than 4,5 V.

The standby controller is a circuit with these functions:

 reliable abandonment of E-500N micro-controller standby position when the cash register is being switched on

 STBY signal activation for moving to standby position of E-500N during the drop of VCC power supply down to the

circuit threshold level

The active level of the STBY signal is log.0.

The V6340/F circuit of this cash register has its threshold level at 4,5 V. The V6340/F circuit activates the CPU standby mode when

the power supply is lower than 4,5 V. In the case of a permanent state of low power supply, the CPU is kept in continual standby

position too.

2.2.4 Current time circuit

It is necessary to ensure the function of current time in the cash register  in order to continually keep the date and time current. This

is provided for by V3021 circuit.

The V3021 circuit contains:

• reader

• shift register

• voltage regulator

• voltage detector

• communication detector

The communication between V3021 and

E-500N is stated to be through D0 conductor

and RD and HWR control signals. The circuit

is activated by a CS2 signal.

The circuit can operate even when the cash

battery. In this case, the power consumption

is max. 500nA. 2,5 Vis minimum reserve

power supply.

Figure 2.9 Reset and Standby controller

Figure 2.10 Current time circuit

VCC

GND

RST

U10

V6309/L

VCC

RST

4.25

t [ms]

VCC

4.5

t [ms]

150

RST

VCC

GND

OUT

U11

V6340/F

VCC

STBY

4.25

t [ms]

VCC

4.5

t [ms]

STBY

R72

10k

VRAM

U [V]

0.8

0.4

03162

t [ s]

U [V]

0.4

-0.4

32k768

CS2

HWR

C52

15p

C53

15p

I/O

V3021

Service manual

Euro-500T Handy

2.3 Input-Output circuits

2.3.1 Print control circuits

The Euro-500T Handy cash register has a built-in CITIZEN MLT-288 electrothermal printer. In order to secure correct operation, it is

important to have control over:

 signals for correct printing operations

 printer stepping motor

 journal winder

 signals to secure printer correct operation and protection

All these operations are carried out by following circuits:

Figure 2.11 Signals for printer control

Figure 2.12 Control of printer stepping motor and journal winder

CLK

VCC

GND

74HC374

STB1

STB2

STB3

STB4

STB5

STB6

W-MOT

P-LATCH

PR-SEL

GND

VCC

U6A

U6B

74HC00

HWR

CS4

U6C

74HC00

C40

100n

U6D

74HC00

D16

LL4148

VCC1

C58

100n

D17

LL4148

VCC1

C73

PR-SEL

U6VCC1 U6VCC1

R46

10k

R47

10k

C47

100p

C48

100p

VCC1

UNMTPCLK

P-CLK

CLR

Cext

Rext/Cext

U7A

74HC123

CLR

Cext

Rext/Cext

U7B

74HC123

GND

VCC

U8A

74HC00

VCC1

GND

PA1

PA2N

PB1

PB2N

1,2EN

GND

VCC2

3,4EN

GND

VCC1

U17

L293D

VCC1EN

R55

10k

EN GND

C26

100n

W-M

AVA 5400-2P-S

VCC

T12

BC817

R40

4k7

W-MOT

D10

LL4148

U8B

74HC00

U8C

74HC00

AAN

BBN

Service manual

Euro-500T Handy

Note: Detailed description of the printer activity is explained in chapter 3.

Signals to secure printer correct operation and protection

Figure 2.13 Control of paper ribbon (receipt)

presence in printer

Figure 2.17 Connectors for connecting interface card

DC Motor W-M

+ (red) 2

- (black) 1

Connection of the motor for journal winding

Figure 2.14 Control of paper ribbon (journal)

presence in printer

Figure 2.15 Scanning of printer head temperature Figure 2.16 Scanning of printer head position

The electrothermal printer and displays are connected directly to the interface card (chapter 4.3 and 7.7) which interconnects all the

mechanisms situated in the upper, tip-up part of the cash register. Two 15-conductor cables, situated in the grooves of the tip-up

construction, connect the printer to the mainboard.

R31

68k

VCC1

PS2

C25

R77

220R

PS2x

R74

68k

C56

VCC1

PS1

R79

220R

PS1x

PS2

PA1N

PA2

PB1N

PB2

P-CLK

GND

VCC1

GND

PS1

B30

BCM4532

C32

100n

B29

EBM2012

C31

100n

PR&DISP2

-1

LCD-SEL

LCD-CLK

LCD-D/DPR

P-LATCH

STB1

STB2

STB3

STB4

STB5

STB6

EBM2012

GND

VCC

B28

BCM4532

C29

100n

B27

EBM2012

C28

100n

PR&DISP1

-1

R37

47k

VCC1

C30

R78

220R

TSx

R53

47k

C24

VCC1

R76

220R

HSx

red black

gum

2 (red)

1 (black)

red black

Service manual

Euro-500T Handy

2.3.2 Keyboard

The Euro-500T Handy keyboard consists of 31 keys laid out in four lines and eight columns. The keyboard activity is based on

transmitting and decoding of DG0-DG2 signals from E-500N and on scanning of ROW1-ROW4 signals. DG0-DG2 signals are decoded

by 1-10 decoder (7442 circuit). The circuit outputs 0-7 generate signals for the particular keyboard columns. Scanning of ROW1-

ROW4 signals helps to identify the pressed key.

The keyboard keys are actually switching units consisting of plastic touch-points and silicon rubber with projections which are

made from conductive material (carbon rubber). When the key is pressed, the force of the finger is shifted onto the silicon rubber

which creates a conductive circuit between the carbon facets. It is enabled by the conductive projections, directly on a printed

circuit.

There is also a network switch on the printed circuit which is connected to the PWRSW connector of the mainboard by a 2-

conductor cable. All other signals between the keyboard and the mainboard are conducted by an FFC 16-conductor cable which

is inserted to the KEYBOARDCON connector on a keyboard side and to the KEYB connector on a mainboard side.

Figure. 2.18 Euro-500T Handy keyboard scheme

The course of signals on 7442 decoder.

GND

VCC

ROW1

ROW2

ROW3

ROW4

ROW1

ROW2

ROW3

VCC

GND

LL4148

74HC42

KEYBOARDCON

FFC

100n

SW1.1

SW1.2

SW1.3

SW1.4

SW1.5

SW1.6

SW1.7

SW2.1

SW2.2

SW2.3

SW2.4

SW2.5

SW2.6

SW3.1

SW3.2

SW3.3

SW3.4

SW3.5

SW3.6

SW4.1

SW4.2

SW4.3

SW4.4

SW4.5

SW4.6

ROW4

SW2.7

SW3.7

SW4.7

SW1.8

SW2.8

SW3.8

LL4148

PWR

AVA 5400-2P-S

SW PWR

BONDTACT PS-11D01

GND

t [ms]

input C

2.5

t [ms]48

input B

2.5

t [ms]

U [V]

input A

2.5

2613 57

2.5

U [V]

t [ms]

4826

t [ms]

4826

t [ms]

4826

t [ms]

4826

t [ms]

4826

t [ms]

4826

output 0

output 1

output 2

output 3

output 4

output 5

output 6

output 7

Service manual

Euro-500T Handy

2.3.3 Displays

The Euro-500T Handy has two display units. One is for the customer, the other for the cashier. Both displays can be segment

LCD type, or the display for cashier is alphanumeric LCD type and the display for customer is segment LCD type.

Alphanumeric display

The operations on the display are administered by the 87LPC762 micro-controller, used only for this purpose, which accepts data sent

from the E-500N main micro-controller through a serial link (SEL, CLK, and DATA signals). This processor is situated on the detached

printed circuit board (PCB) under the module of the alphanumeric display. The description of the control signals for the display can be

found in the chapter 2.1.1, Table 1.

The two-line alphanumeric display of LCD-type is installed with a back-light. Up to 20 characters can be displayed per line. The

display works as a separate printed circuit board with its own display, display back-light and its controller.

The choice to use the back-light for both displays is made on the keyboard (in X mode by pressing the [MULTIPLY] button).

The choice of a particular back-light mode depends on the version of the cash register. The back-light of the alphanumeric

display is powered by max. 150 mA; the back-light on the segmented display by 200 mA.

LCD display

It is the LCD-type display with 96 segments. A switching function of COM1 and COM2 signals enables the regulation of the cash

If requested, it is possible to supply the particular display units with back-light panels (D1) which are controlled by the display

controller (SEG49, SEG50). On/off switching is operated from the keyboard (in X mode by pressing the [MULTI] button). The

maximum power for one back-light panel equals 250 mA.

87LPC762 micro-controller

The Euro-500T Handy cash register uses a 87LPC762 8-bit micro-controller, which provides for complete control over the LCD displays.

Figure 2.19 Displays control of Euro-500T Handy

VCC1

PS1

2ndSENZ

MOLEX53047-0410

220R

VCC1 LED+

BCM4532

100n

100u/10V

VCC VCCx

EBM2012

100n

VCC1 VCC1x

DATA

CLK

SEL

100p

C10

EBM2012

LCD-SEL

LCD-CLK

LCD-D/DPR

VCCx

3R9 (2R2)

47k

2SK1079

GND

SEG-SEL

SEG-CLK

SEG-DATA

2ndSegDISP

AVA 5400-5P S

EBM2012

B10

EBM2012

VCCx

R/W

DB4

DB6

DB5

DB7

910

1112

1314

1516

JumpCONN

2X8pinHEADER

B11

EBM2012

B12

EBM2012

B13

EBM2012

B14

EBM2012

B15

EBM2012

B19

EBM2012

B18

EBM2012

B17

EBM2012

B16

EBM2012

VCCx

GND

DB4

DB5

DB6

DB7

SEL

CLK

DATA

SEG-DATA

SEG-SEL

SEG-CLK

R/W

GND

P1.3/IN T0/SD A

P1.2/T0/SCL

P0.1

P0.2

P0.3

P0.7/T1

P1.4/INT1

P2.0/X2

P0.4

P0.6

VCC

P0.5

P2.1/X1

P1.0/TxD

P1.1/RxD

P0.0

P1.7

P1.6

P1.5/RST

GND

87LPC762

EBM2012

100n

15p

11,0592MHz

47k

VCCx

Service manual

Euro-500T Handy

Figure. 2.20 Segmented display and NJU6432B display interconnection

680p

47k

VCC

LCD-SEL

CNN14

DISPLA Y

LCD-DAT A

LCD-CLK

LCD-SEL

GN D

VCC

47k

LCD-CLK

LCD-DA T A

COM1

COM2

OSC

VDD

IN H

VSS

VLCD

SCL

COM 1

COM 2

t [ s]

U [V]

2.5

21 42

t [ s]

U [V]

15.8 17 32.8

2.5

t [ms]

U [V]

3.5 14 17.5

2.5

Figure 2.21 NJU6432B display controller scheme

The LCD-type segmented display consists of 96 segments. The display segments are activated by COM1 and COM2 signals. The

display is controlled by the NJU6432B-type 53-segmented controller with a switching function. It enables the regulation of up to

106 segments.

If requested, it is possible to supply a particular unit of the segmented display with a back-light panel (D1) controlled by a display

controller (SEG49, SEG50).

Note: If the cash register is being powered only by the internal accumulator it is not recommended to switch a back-light on because

it causes a higher power consumption (quicker discharging of accumulator).

Service manual

Euro-500T Handy

Figure 2.22 Posting of displays in Euro-500T Handy (segment/segment)

Figure 2.23 Posting of displays in Euro-500T Handy (alpha/segment)

Service manual

Euro-500T Handy

Note: See chapter 4 for more information about connection of an external PC keyboard.

2.3.4 Communication circuits

The uro-500T Handy cash register is equipped with communication circuits that enable it to work with a computer, a scanner,

electronic scales, and an external PC keyboard.

Communication with a computer is possible through the RS232C serial interface. The correct setup of the cash register number is one

of the crucial parameters for its communication with the computer (see Programming manual  Flag programming). Communication

with a computer is possible in any mode of the cash register, provided that no other operation is being carried out at that time (e.g. non-

finished sale).

Cooperation between the cash register and a computer and a scanner can be successful on the condition that both communicating

appliances are identical in terms of the communication parameters setting. The Euro-500T Handy cash register provides the opportunity

to set up these parameters in the cash register programming mode (see Users manual  Flags programming).

Adjustable transmission parameters for both communicating appliances are defined in the following way:

•

communication speed for computer programmable 9600 or 38 400 Bd

•

communication speed for scanner programmable from 1200 to 19 200 Bd

•

number of data bits 8

•

parity none

•

stop bit 1

•

terminative flag for scanner programmable, CR, LF, or CR + LF

Communication with the electronic scales has these defined parameters:

•

communication speed 9 600 Bd

•

number of data bits 8

•

parity none

•

stop bit 1

•

communication protocol Euroscales or MORCAN-type scales

The cash register is able to communicate with any external PS/2-type PC keyboard.

Figure 2.24 Communication circuits (PC, scanner, electronic scales) and external PC keyboard interface

T1IN

T2IN

R1OUT

R2OUT

C1+

C1-

C2+

C2-

T1OUT

T2OUT

R1IN

R2IN

V+

V-

HIN202

TxD0

TxD1

PCTxD

SCLTxD

C17

100n

C18

100n

C19

100n

C20

100n

C38

100n

B41

EBM2012

B40

EBM2012

D19

LL4148

VCC1

RxD1

RxD0

PCRxD

SCRRxD

SCLRxD

D11

LL4148

D12

LL4148

R105

4k7

R108

100k

R100

4k7

R103

100k

R104

10k

R109

10k

BC817

VCC

D13

LL4148

D14

LL4148

R101

47k

R106

47k

R107

22k

R102

22k

B43

EBM2012

B44

EBM2012

B42

EBM2012

R110

47k

R111

47k

EKB-DAT

EKB-CLK

B45

EBM2012

B46

EBM2012

VCC

EKB-DATA

EKB-CLKA

C71

C72

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ELCOM Euro-500T Handy User manual

ELCOM Euro-500T Handy User manual

ELCOM Euro-500T Handy User manual

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