Philips CGY887B Datasheet

DISCRETE SEMICONDUCTORS

DATA SH EET

handbook, halfpage

M3D252

CGY887B

860 MHz, 27.8 dB gain push-pull
amplifier

Product specification 2001 Nov 27

Philips Semiconductors Product specification

860 MHz, 27.8 dB gain push-pull amplifier CGY887B

FEATURES

• Excellent linearity

• High gain

• Extremely low noise

• Excellent return loss properties

• Rugged construction

• Gold metallization ensures excellent reliability.

PINNING - SOT115J

PIN DESCRIPTION

1 input

2, 3 common

5+V

7, 8 common

9 output

B

APPLICATIONS

• CATV systems operating in the 40 to 870 MHz
frequency range.

DESCRIPTION

handbook, halfpage

Side view

2

789

351

MSA319

Hybrid dynamic range amplifier module in a SOT115J
package operating at a voltage supply of 24 V (DC),
employing both GaAs and Si dies.

Fig.1 Simplified outline.

QUICK REFERENCE DATA

SYMBOL PARAMETER CONDITIONS MIN. MAX. UNIT

G

p

power gain f = 45 MHz 27.2 27.8 dB

f = 870 MHz 28 29 dB

I

tot

total current consumption (DC) VB= 24 V 295 325 mA

LIMITING VALUES

In accordance with the Absolute Maximum Rating System (IEC 60134).

SYMBOL PARAMETER MIN. MAX. UNIT

V

B

V

i

T

stg

T

mb

supply voltage − 30 V
RF input voltage (single tone) − 70 dBmV
storage temperature −40 +100 °C
operating mounting base temperature −20 +100 °C

2001 Nov 27 2

Philips Semiconductors Product specification

860 MHz, 27.8 dB gain push-pull amplifier CGY887B

CHARACTERISTICS

Bandwidth 45 to 870 MHz; VB= 24 V; Tmb=35°C; ZS=ZL=75Ω.

SYMBOL PARAMETER CONDITIONS MIN. TYP. MAX. UNIT

G

p

SL slope straight line f = 45 to 870 MHz 0.5 1 1.5 dB
FL flatness straight line f = 45 to 100 MHz −0.25 −+0.25 dB

s

11

s

22

s

21

CTB composite triple beat 79 chs flat; V

X

mod

CSO composite second

NF noise figure f = 50 MHz −−5dB

d

2

power gain f = 45 MHz 27.2 27.5 27.8 dB

f = 870 MHz 28 28.5 29 dB

f = 100 to 800 MHz −0.5 − +0.5 dB
f = 800 to 870 MHz −0.4 − +0.1 dB

input return losses f = 40 to 80 MHz 24 −−dB

f = 80 to 160 MHz 22 −−dB
f = 160 to 320 MHz 19 −−dB
f = 320 to 550 MHz 18 −−dB
f = 550 to 650 MHz 17 −−dB
f = 650 to 750 MHz 16 −−dB
f = 750 to 870 MHz 14 −−dB
f = 870 to 914 MHz 12 −−dB

output return losses f = 40 to 80 MHz 23 −−dB

f = 80 to 160 MHz 22 −−dB
f = 160 to 320 MHz 18 −−dB
f = 320 to 550 MHz 17 −−dB
f = 550 to 650 MHz 17 −−dB
f = 650 to 750 MHz 17 −−dB
f = 750 to 870 MHz 14 −−dB
f = 870 to 914 MHz 12 −−dB

phase response f = 50 MHz −45 − +45 deg

= 44 dBmV; fm= 331.25 MHz −−−63.5 dB

o

132 chs flat; V

= 44 dBmV; fm= 445.25 MHz −−−57.5 dB

o

cross modulation 79 chs flat; Vo= 44 dBmV; fm= 55.25 MHz −−−57 dB

order distortion

132 chs flat; V
79 chs flat; V
132 chs flat; V

= 44 dBmV; fm= 55.25 MHz −−−51 dB

o

= 44 dBmV; fm= 54.0 MHz −−−64 dB

o

= 44 dBmV; fm= 860.5 MHz −−−58 dB

o

f = 550 MHz −−5dB
f = 750 MHz −−5dB
f = 870 MHz −−5dB

second order distortion note 1 −−−60 dB

note 2 −−−57 dB

2001 Nov 27 3