English
Language : 

TA1360ANG Datasheet, PDF (86/108 Pages) Toshiba Semiconductor – TOSHIBA Bipolar Linear Integrated Circuit Silicon Monolithic
TA1360ANG
Note
No.
Characteristics
T22 Analog RGB
black peak
limit level
SW3
A
T23 RGB contrast A
adjustment
characteristic
T24 Analog RGB
A
brightness
adjustment
characteristic
T25 Analog RGB
C
mode
switching
transfer
characteristic
SW4
B
B
B
B
SW5
B
B
B
B
Test Conditions
SW Mode
SW33 SW34 SW35
A
A
A
SW37
A
SW38
A
SW39
A 1.
Test Method
Input signal 1(f0 = 100 kHz, picture period amplitude = 0.2 Vp-p) from pin 3. Control drive
gain adjustment data so that pins 41 and 42 picture period amplitude equals that of pin 43.
2. Apply 5-V external voltage to pin 49.
3. Set RGB contrast data to maximum (7F).
4. Input signal 2 to pin 35. Gradually decrease picture amplitude, and measure picture period
amplitude voltage when output from pin 43 is clipped.
5. Repeat the step 4 above with the following pins: Input from pin 34 and measure output from
pin 42. Input from pin 33 and measure output pin 41.
A
A
A
A
A
A 1. Input signal 1(f0 = 100 kHz, picture period amplitude = 0.2 Vp-p) from pin 3. Control drive
gain adjustment data so that pins 41 and 42 picture period amplitude equals that of pin 43.
or
or
or
B
B
B
2. Apply 5-V external voltage to pin 49.
3. Input signal 1 (f0 = 100 kHz, picture period amplitude = 0.2 Vp-p) from pin 35.
4. RGB contrast data to maximum (7F), center (40), and minimum (00). Measure pin 43 picture
period amplitudes VuTXR (maximum, center, and minimum) respectively.
5. Calculate amplitude ratio of maximum and minimum in decibels.
6. Repeat the steps 4 and 5 above with the following pins: Input from pin 34 and measure pin
42. Input from pin 33 and measure pin 41.
A
A
A
A
A
A 1. Input signal 1(f0 = 100 kHz, picture period amplitude = 0.2 Vp-p) from pin 3. Control drive
gain adjustment data so that pins 41 and 42 picture period amplitude equals that of pin 43.
or
or
or
B
B
B
2. Input signal 2 from pins 33, 34, and 35.
3. Apply 5-V external voltage to pin 49.
4. Adjust amplitude A of signal 2 so that picture period amplitude of pin 43 is 0.5 Vp-p.
5. Change RGB brightness data to maximum (FE), center (80), and minimum (00). Measure
pins 43, 42, and 41 picture period voltage VbrTX (maximum, center, and minimum)
respectively.
A
A
A
A
A
A 1. Set RGB brightness data to maximum (FE).
2. Input signal 4 (signal amplitude = 1.5 Vp-p) from pin 49.
3. Measure input/output transfer characteristics using pin 43 according to the figure T-2.
4. Repeat the steps 2 and 3 above with the following pins: Input from pin 34 and measure pin
42. Input from pin 33 and measure pin 41.
5. Calculate maximum inter-axial rise/fall transfer delay time, using the data measured above.
86
2003-01-21