Sony KE-32TS2E / KE-32TS2U Service Manual ▷ View online
-18-
Addre
ss
bit
RANGE
INITIAL
value
6
-
-
Be sure to use the display with the setting
fixed to 0.
0-3 0【UA7x】
5-4 PWMAX Maximum power
consumption
Sets the maximum power consumption.
Set this item in accordance with the status
Set this item in accordance with the status
of the machine.
Make sure that the respective parts'
Make sure that the respective parts'
temperature/panel temperature stays within
the specifications. If the setting is set to 3,
power consumption increases to a level
exceeding the standard consumption. Be
sure to execute the heat dissipation design
so that respective parts' temperature/panel
temperature stays within the specifications.
0:
−20W
1:
−10W
2:
±0W
3: +10W
2【UA1x/6x】
PWMP
=0
Setting of the maximum electric
power.
0: 0W
1: +10W
2: +20W
3: +30W
1: +10W
2: +20W
3: +30W
5-4 PWMAX Maximum power
consumption
PWMP
=1
Setting of peak electric power.
Electric power by which electric
power is permitted in addition to
improve practical brightness to
the maximum electric power set
3:+10W
0:
−20W
1:
−10W
2:
±0W
3: +10W
2【UA7x】
28
3-0
-
-
Be sure to use the display with the setting
fixed to 0.
0-F 0
29
7-0
PWM
PASS
PASS
Password of peak
electric power
setting
Password of peak electric power
setting.The password is described to the
delivery specifications. When the password
setting is normally done, the reading value
of the real thing ground becomes 51.
51: Permission
of PWMP
ON
Another:
Prohibition
Prohibition
FF【UA7x】
2C
7-0 PsTPW
Ps-Tank PoWer
The maximum
electric power
setting:
The maximum
The maximum
over electric power
from +10W
00-FF 1E【UA7x】
2D 7-0
PsTTM Ps-Tank
TiMe
Time which can
operate by the
maximum over
electric power
(*10sec)
When the amount of
an over electric
power becomes
PsTPW×PsTTM or
less at PWMP=1, the
control by which
brightness is lowered
is done.
00-FF 3C【UA7x】
31
7-0 GAM00 Reverse γ
correction DC
Sets the input level that implements the
forced 0 [LSB] output.
00~FF 1F
7-2
-
<no use>
-
32
1-0
GAM01
[9: 8]
00~FF 00
33 7-0
GAM01
[7: 0]
Reverse
γ
coefficient 01
Reverse
γ coefficient value is set.
Input Output value of 8 [LSB]
00~FF 04
7-3
-
<no use>
-
00~FF 00
34
2-0
GAM02
[10: 8]
[10: 8]
35
7-0
GAM02
[7: 0]
Reverse
γ
correction 02
Reverse
γ coefficient value is set.
Input Output value of 16 [LSB]
00~FF
24
Sub
Data Symbol
Item
Function
Setting [hex]
-19-
Addre
ss
bit
RANGE
INITIAL
value
7-4
-
<no use>
-
36
3-0
GAM03
[11:8]
[11:8]
Reverse
γ
correction 03
Reverse
γ coefficient value is set.
Input Output value of 24 [LSB]
00-FF 00
37
7-0
GAM03
[7: 0]
00~FF
58
7-4
-
<no use>
-
38
3-0
GAM04
[11: 8]
[11: 8]
Reverse
γ
correction 04
Reverse
γ coefficient value is set.
Input Output value of 32 [LSB]
00~FF 00
39
7-0
GAM04
[7: 0]
[7: 0]
00~FF A7
7-5
-
<no use>
-
3A
4-0
GAM05
[12: 8]
[12: 8]
00~FF 01
7-1
GAM05
[7: 1]
[7: 1]
Reverse
γ
correction 05
Reverse
γ coefficient value is set.
Input Output value of 40 [LSB]
3B
0
-
<no use>
-
00~FF 12
7-5
-
<no use>
-
3C
4-0
GAM06
[12: 8]
[12: 8]
00~FF 01
7-1
GAM06
[7: 1]
[7: 1]
Reverse
γ
correction 06
Reverse
γ coefficient value is set.
Input Output value of 48 [LSB]
3D
0
-
<no use>
-
00~FF 9A
7-5
-
<no use>
-
3E
4-0
GAM07
[12: 8]
[12: 8]
00~FF 02
7-2
GAM07
[7: 2]
[7: 2]
Reverse
γ
correction 07
Reverse
γ coefficient value is set.
Input Output value of 56 [LSB]
3F
1-0
-
<no use>
-
00~FF 40
7-5
-
<no use>
-
40
4-0
GAM08
[12: 8]
[12: 8]
00~FF 03
7-2
GAM08
[7: 2]
[7: 2]
Reverse
γ
correction 08
Reverse
γ coefficient value is set.
Input Output value of 64 [LSB]
41
1-0
-
<no use>
-
00~FF 04
7-6
-
<no use>
-
42
5-0
GAM09
[13: 8]
[13: 8]
00~FF 04
7-4
GAM09
[7: 4]
[7: 4]
Reverse
γ
correction 09
Reverse
γ coefficient value is set.
Input Output value of 80 [LSB]
43
3-0
-
<no use>
-
00~FF F0
Sub
Data Symbol
Item
Function
Setting [hex]
-20-
Addre
ss
bit
RANGE
INITIAL
value
7-6
-
<no use>
-
44
5-0
GAM10
[13: 8]
[13: 8]
Reverse
γ
correction 10
Reverse
γ coefficient value is set.
Input Output value of 96 [LSB]
00~FF 07
7-4
GAM10
[7: 4]
[7: 4]
Reverse
γ
correction 10
Reverse
γ coefficient value is set.
Input Output value of 96 [LSB]
45
3-0
-
<no use>
-
00~FF 60
7-6
-
<no use>
-
46
5-0
GAM11
[13: 8]
[13: 8]
00~FF 0A
7-4
GAM11
[7: 4]
[7: 4]
Reverse
γ
correction 11
Reverse
γ coefficient value is set.
Input Output value of 112 [LSB]
47
3-0
-
<no use>
-
00~FF 50
7-6
-
<no use>
-
48
5-0
GAM12
[13: 8]
[13: 8]
00~FF 0D
7-4
GAM12
[7: 4]
[7: 4]
Reverse
γ
correction 12
Reverse
γ coefficient value is set.
Input Output value of 128 [LSB]
49
3-0
-
<no use>
-
00~FF D0
7-6
-
<no use>
-
4A
5-0
GAM13
[1
3: 8]
00~FF 16
7-4
GAM13
[7:
4]
Reverse
γ
correction 13
Reverse
γ coefficient value is set.
Input Output value of 160 [LSB]
4B
3-0 -
<no
use>
-
00~FF A0
7-6
-
<no use>
-
4C
5-0
GAM14
[1
3: 8]
00~FF 21
7-4
GAM14
[7:
4]
Reverse
γ
correction 14
Reverse
γ coefficient value is set.
Input Output value of 192 [LSB]
4D
3-0
-
<no use>
-
00~FF E0
7-6
-
<no use>
-
4E
5-0
GAM15
[1
3: 8]
00~FF 2F
7-4
GAM15
[7:
4]
Reverse
γ
correction 15
Reverse
γ coefficient value is set.
Input Output value of 224 [LSB]
4F
3-0
-
<no use>
-
00~FF 90
7
-
<no use>
-
50
6-0
GAM16
[1
4: 8]
00~FF 40
7-5
GAM16
[7:
5]
Reverse
γ
correction 16
Reverse
γ coefficient
Input Output value of 256 [LSB]
51
4-0
-
<no use>
-
00~FF 00
Sub
Data Symbol
Item
Function
Setting [hex]
-21-
Addre
ss
bit
RANGE
INITIAL
value
E5 7-0
UVrs
USER
Vrs
Setting Vrs voltage
Standard equation: Vrs=2.99*UVrs/255
Standard equation: Vrs=2.99*UVrs/255
00
~
AA
Adjusted in
factory
E6
7-0 UVra
USER
Vra
Setting Vra voltage
Standard equation: Vra=2.99*UVra/255
Standard equation: Vra=2.99*UVra/255
00
~
AA
Adjusted in
factory
7-3
-
<no
use>
Be sure to use the display with the setting
fixed to 0.
0 0
2
RCLVr
UVrs/UVra
RECALL
RECALL
Resetting the UVrs, UVra in both of
register and EEPROM to the initial value
by setting RCLVr to 1.
This setting automatically returns to 0 after
resetting the UVrs,Uvra.
register and EEPROM to the initial value
by setting RCLVr to 1.
This setting automatically returns to 0 after
resetting the UVrs,Uvra.
0:Normal
1:UVrs,UVra
1:UVrs,UVra
initialized
0
1
EWRVr
UVrs/UVra
Write
Write
Storing the UVrs,UVra in register to
EEPROM by setting EWRVr to 1.
This setting automatically returns to 0 after
resetting the UVrs,Uvra.
EEPROM by setting EWRVr to 1.
This setting automatically returns to 0 after
resetting the UVrs,Uvra.
0:Normal
1:UVrs,UVra
1:UVrs,UVra
stored
in EEPROM
in EEPROM
0
FE
0
-
-
Be sure to use the display with the setting
fixed to 0.
fixed to 0.
0 0
7-1
-
-
Be sure to use the display with the setting
fixed to 0.
fixed to 0.
0 0
FF
0 DSET
Data
setup
When the DSETEN setting is 1, setting
this bit causes all the register setups that
have been set up to now, to be reflected to
the operation status of this product. They
are reflected from the next field after this
bit is accepted.
this bit causes all the register setups that
have been set up to now, to be reflected to
the operation status of this product. They
are reflected from the next field after this
bit is accepted.
0: Normal
1: Execute
1: Execute
0
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