Philips bgy86 87 DATASHEETS

DISCRETE SEMICONDUCTORS

DATA SH EET

ook, halfpage

M3D252

BGY86; BGY87

CATV amplifier modules

Product specification
Supersedes data of February 1994

1999 Mar 25

Philips Semiconductors Product specification

CATV amplifier modules BGY86; BGY87

FEATURES

• Excellent linearity

• Extremely low noise

• Silicon nitride passivation

• Rugged construction

• TiPtAu metallized crystals ensure

optimal reliability.

DESCRIPTION

PINNING - SOT115J

PIN DESCRIPTION

1 input
2 common
3 common
5+V

B

7 common
8 common
9 output

page

2

351

Side view

Fig.1 Simplified outline.

789

Hybrid amplifier modules for CATV
systems operating over a frequency
range of 40 to 450 Mhz at a voltage
supply of 24 V (DC). The BGY86 is
intended for use as a pre-amplifier
and the BGY87 as a final amplifier.

QUICK REFERENCE DATA

SYMBOL PARAMETER CONDITIONS MIN. TYP. MAX. UNIT

G

p

power gain f = 50 MHz 21.5 − 22.5 dB

f = 450 MHz 21.7 − 23.5 dB

I

tot

total current consumption (DC) VB=24V

BGY86 − 180 200 mA
BGY87 − 220 240 mA

MSA319

LIMITING VALUES

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

SYMBOL PARAMETER MIN. MAX. UNIT

V

i

T

stg

T

mb

RF input voltage − 65 dBmV
storage temperature −40 +100 °C
operating mounting base temperature −20 +100 °C

1999 Mar 25 2

Philips Semiconductors Product specification

CATV amplifier modules BGY86; BGY87

CHARACTERISTICS

Bandwidth 40 to 450 MHz; V

SYMBOL PARAMETER CONDITIONS MIN. TYP. MAX. UNIT

G

p

power gain f = 50 MHz 21.5 − 22.5 dB

SL slope cable equivalent f = 40 to 450 MHz 0 − 1.5 dB
FL flatness of frequency response f = 40 to 450 MHz −−±0.2 dB
S

11

S

22

S

21

input return losses f = 40 to 80 MHz 20 −−dB

output return losses f = 40 to 80 MHz 20 −−dB

phase response f = 50 MHz +135 − +225 deg

CTB composite triple beat 60 channels flat;

BGY86 −−−54 dB
BGY87 −−−58 dB

X

mod

cross modulation 60 channels flat;

BGY86 −−−51 dB
BGY87 −−−55 dB

CSO composite second order distortion 60 channels flat;

BGY86 −−−53 dB
BGY87 −−−57 dB

d

2

second order distortion note 1

BGY86 −−−68 dB
BGY87 −−−72 dB

V

o

output voltage dim= −60 dB; note 2

BGY86 61.5 −−dBmV
BGY87 64 −−dBmV

F noise figure f = 450 MHz

BGY86 −−6dB
BGY87 −−6.5 dB

I

tot

total current consumption (DC) note 3

BGY86 − 180 200 mA
BGY87 − 220 240 mA

= 24 V; Tmb=30°C; ZS=ZL=75Ω

B

f = 450 MHz 21.7 − 23.5 dB

f = 80 to 160 MHz 19 −−dB
f = 160 to 450 MHz 18 −−dB

f = 80 to 160 MHz 19 −−dB
f = 160 to 450 MHz 18 −−dB

V

= 46 dBmV;

o

measured at 445.25 MHz

Vo= 46 dBmV;
measured at 55.25 MHz

V

= 46 dBmV;

o

measured at 446.5 MHz

−−−−

Notes

1. f

= 55.25 MHz; Vp= 46 dBmV; fq= 391.25 MHz; Vq= 46 dBmV; measured at fp+fq= 446.5 MHz.

p

2. Measured according to DIN45004B: fp= 440.25 MHz; Vp=Vo; fq= 447.25 MHz; Vq=Vo−6 dB;
fr= 449.25 MHz; Vr=Vo−6 dB; measured at fp+fq− fr= 438.25 MHz.

3. The modules normally operate at VB= 24 V, but are able to withstand supply transients up to 30 V.

1999 Mar 25 3