English
Language : 

TDA8153 Datasheet, PDF (4/11 Pages) STMicroelectronics – RGB VIDEO OUTPUT AMPLIFIER
TDA8153
ELECTRICAL CHARACTERISTICS (ref. to test and application circuits, VHT = 200V, VS = 12V,
CL = 10pF *, heatsink Rth = 9oC/W, Tamb = 25oC unless otherwise specified)
Symbol
VHT
VS
IHT
IS
Vref
Vg1
Parameter
High Voltage Supply
Low Voltage Supply
Quiescent Drain Current
Quiescent Drain Current
Reference Voltage
CRT G1 Voltage Supply
Vsat H Output Saturation
Test Conditions
Vin = 0, Vodc = Vsat H
Vin = 0, Vodc = Vsat H
Vin = 0, Vdc = – 3V
Vsat L Output Saturation
Vin = 0, Vdc = 9V
I1, I2, I3
Vodc Quiescent Output Voltage
See schematic diagr.
Vin = 0 ; Vodc = 150V
Inputs Floating
Vo Peak-to-peak Output Swing f = 10KHz
∆Vodc DC Output Voltage versus
∆T
Temperature
∆Vodc DC Differential Voltage
∆T
versus Temperature
Vodc = 150V
Tamb = 0 ÷ 70°C
Vodc = 150V
Tamb = 0 ÷ 70°C
GVo
GVc
Bw
tr
tf
∆T
Open-loop Gain
Vin = 50mVpp, f = 10kHz
Closed-loop Gain
Vin = 1.5Vpp, f = 10kHz
Video Bandwidth (– 3 dB)
Vobl = 125V, 0dB at f = 100kHz
Vo =
80Vpp
50Vpp
10Vpp
Rise Time
Vo = 100Vpp ; Vobl = 150V
f = 100kHz, Duty Cycle = 0.5
Fall Time
Vo = 100Vpp ; Vobl = 150V
f = 100kHz, Duty Cycle = 0.5
Differential Rise and Fall Time
Overshoot
Vo = 100Vpp , Vobl = 150V
f = 100kHz, Duty Cycle = 0.5
Undershoot
Vo = 100Vpp ; Vobl = 150V
f = 100kHz, Duty Cycle = 0.5
Pin Min. Typ. Max. Unit Fig.
4
200 220 V 1-2
11 10.8 12 13.2 V 1-2
4
10 15 mA 1
11
10 17 mA 1
10 1.4 1.6 1.9 V 1
5
Vs +
Vbe
V1
3
VHT
13
–3V
15
V1
3
Vs
13
15
V1
12 7 15 20 µA 1
3
123
13
15
V1
3 170
13
15
Vpp 1
3
13
0.03
V/°C 1
15
3
0.015 V/°C 1
13
15
50 56
dB 1
20 25
dB 1
4.5 6.0
6.5 8.0
12 15
MHz 2
80 120 ns 2
80 120 ns 2
20 ns 2
5
%2
5
%2
* CL = 10pF is the sum of the P.C. board capacitance (with socket) and the cathode capacitance of the CRT.
4/11