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9397 750 14728 © Koninklijke Philips Electronics N.V. 2005. All rights reserved.
Product data sheet Rev. 02 — 28 April 2005 6 of 16
Philips Semiconductors
TDA6107AJF
Triple video output amplifier
9. Characteristics
Table 5: Characteristics
Operating range: T
j
=
−
20
°
C to +150
°
C; V
DD
= 180 V to 210 V; test conditions: T
amb
=25
°
C; V
DD
= 200 V;
V
oc(1)
=V
oc(2)
=V
oc(3)
=
1
⁄
2
V
DD
;C
L
=10pF(C
L
consists of parasitic and cathode capacitance); R
th(h-a)
= 18 K/W; measured in
test circuit of
Figure 9; unless otherwise specified.
Symbol Parameter Conditions Min Typ Max Unit
I
q
quiescent supply current 5.6 6 7.6 mA
V
ref(int)
internal reference voltage (input
stage)
- 2.5 - V
R
i
input resistance - 2.1 - kΩ
G gain of amplifier 73 81 89
∆G gain difference −4.2 0 +4.2
PSRR power supply rejection ratio f < 50 kHz
[1]
-55-dB
α
ct(DC)
DC crosstalk between channels - −50 - dB
Measurement output pin I
om
; V
oc
=V
oc(min)
to V
oc(max)
I
om(offset)
offset current of measurement
output (for three channels)
I
oc
=0µA;
V
om
=1.8Vto6V
−50 - +50 µA
∆I
om
/∆I
oc
linearity of current transfer
(for three channels)
I
oc
= −100 µA to +100 µA;
V
om
=1.8Vto6V
−0.9 −1.0 −1.1
I
oc
= −100 µA to +10 mA;
V
om
=1.8Vto4V
−0.9 −1.0 −1.1
Output pins V
oc(1)
, V
oc(2)
, V
oc(3)
V
oc(DC)
DC output voltage I
i
=0µA 76 8797V
∆V
oc(DC)(offset)
differential DC output offset
voltage between two output pins
I
i
=0µA −5 0 +5 V
∆V
oc(T)
output voltage temperature drift - 10 - mV/K
∆V
oc(T)(offset)
differential output offset voltage
temperature drift between two
output pins
- 0 - mV/K
I
oc(max)
maximum peak output current V
oc
=50VtoV
DD
− 50 V - 20 - mA
V
oc(min)
minimum output voltage V
i
= 4.5 V; at I
oc
=0mA
[2]
- - 10 V
V
oc(max)
maximum output voltage V
i
= 0.5 V; at I
oc
=0mA
[2]
V
DD
− 15--V
B
S
small signal bandwidth V
oc
= 60 V (p-p) - 5.5 - MHz
B
L
large signal bandwidth V
oc
= 100 V (p-p) - 4.5 - MHz
t
co(p)
cathode outputpropagation time
50 % input to 50 % output
V
oc
= 100 V (p-p) square
wave
[3]
-60-ns
∆t
co(p)
difference in cathode output
propagation time 50 % input to
50 % output (between two
output pins)
V
oc
= 100 V (p-p) square
wave
[3]
−10 0 +10 ns
t
oc(r)
cathode output rise time
10 % output to 90 % output
V
oc
= 50 V to 150 V square
wave
[3]
67 91 113 ns
t
oc(f)
cathode output fall time
90 % output to 10 % output
V
oc
= 150 V to 50 V square
wave
[3]
67 91 113 ns