Philips CR5627 Datasheet

DISCRETE SEMICONDUCTORS

DATA SH EET

CR5627

Triple video driver hybrid amplifier

Product specification
File under Discrete Semiconductors, SC05

1995 Oct 09

Philips Semiconductors Product specification

Triple video driver hybrid amplifier CR5627

FEATURES

• Transition times (10 to 90%):

3.5 ns rise and 2.7 ns fall with
50 V (p-p) swing and CLat 10 pF

• Low power consumption:
10 W with 25 MHz square wave

• Minimum small signal bandwidth:
85 MHz

• Very fast slew rate: 12000 V/µs

• Excellent grey-scale linearity

• Unconditional stability

• Gold metallization ensures

excellent reliability.

APPLICATIONS

It is designed for application in
cathode-ray tube (CRT) drivers in
high-resolution colour monitors.

DESCRIPTION

Hybrid amplifier module comprising
three video amplifiers in a SOT347
package.

PINNING

PIN DESCRIPTION

10
11
12

1
2
3
4
5
6
7
8
9

supply voltage 1 (V
input 1
ground
output 1
supply voltage 2 (VS2)
input 2
ground
output 2
supply voltage 3 (V
input 3
ground
output 3

S1

S3

)

1/3 page (Datasheet)

112

)

Front view

MBB934

Fig.1 SOT347.

LIMITING VALUES

In accordance with the Absolute Maximum Rating System (IEC 134).

SYMBOL PARAMETER MIN. MAX. UNIT

Per amplifier

V

S

T

mb

supply voltage (DC) − 90 V
operating mounting base

−20 +100 °C

temperature

T

stg

storage temperature −40 +125 °C

1995 Oct 09 2

Philips Semiconductors Product specification

Triple video driver hybrid amplifier CR5627

CHARACTERISTICS

VS= 80 V; Tmb=25°C; CL= 10 pF; output swing = 50 V (p-p) with 40 V DC offset; measured in test circuit (see Fig.6);
unless otherwise specified.

SYMBOL PARAMETER CONDITIONS MIN. TYP. MAX. UNIT

I

S

P

tot

t

r

t

f

BW small signal bandwidth between −3 dB points; note 2 85 100 − MHz
V

tilt

V

os

NLN non-linearity V
A

V

V

G

supply current input and output open 57 75 91 mA
total power dissipation 25 MHz square wave − 9.6 11 W
rise time transient response 10 to 90%; note 1 − 3.5 4.1 ns
fall time transient response 10 to 90%; note 1 − 2.7 3.3 ns

low frequency tilt voltage 10 kHz square wave − 1.3 1.5 V
overshoot voltage varied by C1 and C2; see Fig.6 − 310%

=5to75V − 25%

O

DC voltage gain 50 Ω source; note 3 11 12 13
insertion gain 50 Ω source; note 4 350 370 390

Notes

1. Input signal is a 100 kHz square wave of 4.15 V (p-p) with 1.5 V DC offset (50 Ω source).

2. Sinewave output signal: 1 V (p-p).

3. Measured V

(Fig.2) at input test-circuit (see Fig.6).

O/VI

4. Measured VO/VI (Fig.3) at input module (see Fig.6).

1995 Oct 09 3