Characteristics, Tda6107ajf, Philips semiconductors – Philips TDA6107AJF User Manual

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

= 10 pF (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

-

k

Ω

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

= 0

µ

A;

V

om

= 1.8 V to 6 V

−

50

-

+50

µ

A

∆

I

om

/

∆

I

oc

linearity of current transfer
(for three channels)

I

oc

=

−

100

µ

A to +100

µ

A;

V

om

= 1.8 V to 6 V

−

0.9

−

1.0

−

1.1

I

oc

=

−

100

µ

A to +10 mA;

V

om

= 1.8 V to 4 V

−

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

= 0

µ

A

76

87

97

V

∆

V

oc(DC)(offset)

differential DC output offset
voltage between two output pins

I

i

= 0

µ

A

−

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

= 50 V to V

DD

−

50 V

-

20

-

mA

V

oc(min)

minimum output voltage

V

i

= 4.5 V; at I

oc

= 0 mA

[2]

-

-

10

V

V

oc(max)

maximum output voltage

V

i

= 0.5 V; at I

oc

= 0 mA

[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 output propagation 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