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No.

NAME

PARTS CODE

DESCRIPTION

1

1 hole clerk key
The key No.1 to No.6 ore supplied together with UP-
5700.

LKGIM1004BH89

Key No. 89

LKGIM1004BH90

Key No. 90

LKGIM1004BH91

Key No. 91

LKGIM1004BH92

Key No. 92

LKGIM1004BH93

Key No. 93

LKGIM1004BH94

Key No. 94

LKGIM1004BH95

Key No. 95

LKGIM1004BH96

Key No. 96

LKGIM1004BH97

Key No. 97

LKGIM1004BH98

Key No. 98

LKGIM1004BH99

Key No. 99

LKGIM1004BH00

Key No. 100

LKGIM1004BHA1

Key No. 101

LKGIM1004BHA2

Key No. 102

LKGIM1004BHA3

Key No. 103

LKGIM1004BHA4

Key No. 104

LKGIM1004BHA5

Key No. 105

LKGIM1004BHA6

Key No. 106

LKGIM1004BHA7

Key No. 107

LKGIM1004BHA8

Key No. 108

LKGIM1004BHA9

Key No. 109

LKGIM1004BHA0

Key No. 110

LKGIM1004BHB1

Key No. 111

LKGIM1004BHB2

Key No. 112

LKGIM1004BHB3

Key No. 113

LKGIM1004BHB4

Key No. 114

LKGIM1004BHB5

Key No. 115

LKGIM1004BHB6

Key No. 116

LKGIM1004BHB7

Key No. 117

LKGIM1004BHB8

Key No. 118

LKGIM1004BHB9

Key No. 119

LKGIM1004BHB0

Key No. 120

LKGIM1004BHC1

Key No. 121

LKGIM1004BHC2

Key No. 122

LKGIM1004BHC3

Key No. 123

LKGIM1004BHC4

Key No. 124

LKGIM1004BHC5

Key No. 125

LKGIM1004BHC6

Key No. 126

No.

NAME

PARTS CODE

PRICE

DESCRIPTION

1

Terminator(50 

Ω

)

QCNCM7145RCZZ

AZ

for SRN in-line system

2

MCR test card

UKOG-6718RCZZ

BE

for UP-E12MR2

3

RS232 loop back connector

UKOG-6705RCZZ

BC

for RS232 connector

4

Expansion PWB

CKOG-6724BHZZ

BX

2 – 4

5-1. Expansion PWB : CKOG-6724BHZZ
•

Extrenal view

•

Plain view

•

Connection diagram

5-2. MCR test card: UKOG-6718RCZZ
•

Used when executing the diagnostics of the UP-E12MR2.

•

External view

Test pins : Used to check the bus signals.

Bus connector : Used to check the bus signals.

Connected to the UP-3300 Mother PWB.

UP-3300 bus connector

ER-A7RS

2 – 5

If transistor Q6 in the transmitter/receiver section has been replaced
or if the SRN level requires readjustment, the following alignment is
required:

1

Oscilloscope (50MHz or better). . . . . . . . . . . . . . . . . . . . . . . . . . . 1

2

UP-3300 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1

Fig. 1 Dummy network

The oscillator should be connected to the points indicated by 

⊕

 and

$

.

⊕

: Connect the positive side of the oscillator.

$

: Connect the negative side of the oscillator.

Fig. 2

Attach the BNC connector to the SRN connector (CN2) on the main
PWB.

1

Using an oscilloscope check the 1MHz oscillator’s output waveform.

Fig. 3 1MHz oscillator output waveform

NOTE: The oscillator used should have an output impedance of

50

Ω

.

Connect a dummy network or branch-trunk network to the output of
the SRN connector (CN2), and connect the oscillator to the dummy or
branch-trunk network.

*

Waveform adjustment

Adjust VR1 until the signal waveform as shown in Fig. 5 is ob-
tained across IC5 (pin 15 of the 75115) and GND pin.
Turning VR1 clockwise extends the interval of T1.

Fig. 5 Receiver regeneration waveform (with dummy network)

Fig. 6 Board location

The coordinates on the touch panel and those on the VGA display
may not match for the following reasons.

•

The physical deviation between the touch panel and display

•

Variations in "electric resistance>coordinate" conversion on the
touch panel

Correction of such a deviation is called calibration.

Calibration is started at the following two cases:

– SRV reset/MRS –

1) When touch panel is pressed:

Calibration is started when PROGRAM reset/MRS is performed
with the touch panel pressed.

2) When no calibration has been performed:

Calibration is started when the calibration data held by the touch
panel controller is broken.
But case 2 isn’t performed if case 1 is performed prior to the
second.

Calibration is also started when the EEPROM on the touch panel
PWB is replaced.

NOTE: If the touch panel unit is replaced for any reason such as a

repair, start calibration, following case 1).

1) The character string "Calibration Mode" is displayed.

2) If the touch is kept pressed, the machine waits for the finger

leaving the touch panel.

3) The character string "Touch these crosses" is displayed.

4) Entering correction mode

The command "Entering correction mode" is issued to the touch
panel controller.

At this step, the coordinate data of the four corners in the input
area are passed to the controller.

R1 100 

Ω

 J (1/4W carbon)

R2 150 

Ω

 J (1/4W carbon)

C1 0.01µ F (mylar firm)

C1

R1

R2

BNC connector

Main PWB

5V

0V

0.5µ S

0.5µ S

VOH

VOL

T1 = 580 to 620ms
T2 = 380 to 420ms

T1

T2

CN2

VR1

IC5

R2

Pin No.15

A

3 – 1

5) Correction points are displayed

The correction points are displayed.

All of the nine correcting points are displayed as follows using the
mark "+". The "+" mark is 18 by 18 dots with 2 dots thick.

6) Correction points are input

Arbitrary correction points are input. Coordinate data correspond-
ing to its input are output from the touch controller. Note the data
are those of the initial coordinates. (Refer to the table below.)

The point from where the finger leaves the touch panel is defined
as the correction point input position (OFF position).

The data on the nearest correction point is checked, and if almost
appropriate, (regarding data of the initial coordinates, within +/-
100 dots and +/-5mm in size) the command "correction data set"
is issued to the controller. When the panel is released and it is
possible to correct with the panel touched, the mark "+" turns
green.

If the input coordinates are very far from the correction point, it will
be neglected. If the command "correction data set" is terminated
normally, the mark "+" at the correction point turns black.

The input coordinate data are those of the initial coordinates, and
the relation to the correction points is as follows:

The data of the initial coordinates of correction points

393, 402

2080, 402

3767, 402

393, 2048

2080, 2048

3767, 2048

393, 3697

2080, 3697

3767, 3697

7) Step 6) is repeated for the nine correction points.

Correction is performed in an arbitrary order. At first all of the nine
points are displayed in white and they turn black as corrected.

8) After all of the points are corrected, the command "correction

mode end" is issued to the controller.

The maximum coordinates are (4096, 4096).

9) The display mode is returned to the text mode.

*

If the power supply is turned off during correction, the following
messages are displayed and all the steps are started over again.

Calibration failed.

Touch the panel to try again

Calibration flow

4. Touch panel/VGA coordinates
•

Touch panel configuration (unit: mm)

•

Touch panel coordinates

(16,14)

(320,14)

(624,14)

(16,240)

(320,240)

(624,240)

(16,465)

(320,465)

(624,465)

18 dots

18 dots

VGA Display

N

Y

Y

N

N

Y

N

Y

N

Y

Nine correction points are
displayed on VGA screen

Correction mode

Panel pressed?

Panel pressed?

Not-yet corrected

point +/-100?

Correction error?

Correction point is thined

All of nine points

finished?

Coordinates are obtained
from touch panel controller

Coordinates are obtained
from touch panel controller

Correction data set

Correcting point>corrected

Correction mode end

172.9(y2)

14.5(y1)

187.4(y)

18.2(x1)

229.4(x2)

243.8(x)

(640,480)

(4096,4096)

(4096,4096)

(0,0) Initial coordinates

(0,0) Touch panel coordinates (4096x4096)

(0,0) VGA coordinates

3 – 2