Philips BGY887 Datasheet

DATA SH EET

ook, halfpage

M3D252

BGY887

CATV amplifier module

Product specification
Supersedes data of 1997 Dec 17

1999 Mar 30

Philips Semiconductors Product specification

CATV amplifier module BGY887

FEATURES

• Excellent linearity

• Extremely low noise

• Excellent return loss properties

• Silicon nitride passivation

• Rugged construction

• Gold metallization ensures

excellent reliability.

APPLICATIONS

• CATV systems operating in the
40 to 860 MHz frequency range.

DESCRIPTION

Hybrid dynamic range amplifier
module in a SOT115J package
operating with a voltage supply of
24 V (DC).

QUICK REFERENCE DATA

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

MSA319

SYMBOL PARAMETER CONDITIONS MIN. MAX. UNIT

G

p

power gain f = 50 MHz 21 22 dB

f = 860 MHz 21.5 − dB

I

tot

total current consumption (DC) VB=24V − 235 mA

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 30 2

Philips Semiconductors Product specification

CATV amplifier module BGY887

CHARACTERISTICS
Table 1 Bandwidth 40 to 860 MHz; V

= 24 V; T

B

=30°C; ZS=ZL=75Ω

case

SYMBOL PARAMETER CONDITIONS MIN. TYP. MAX. UNIT

G

p

power gain f = 50 MHz 21 21.5 22 dB

f = 860 MHz 21.5 22.5 − dB
SL slope cable equivalent f = 40 to 860 MHz 0.2 1 2 dB
FL flatness of frequency response f = 40 to 860 MHz −±0.2 ±0.3 dB
S

11

input return losses f = 40 to 80 MHz 20 29.5 − dB

f = 80 to 160 MHz 18.5 27.5 − dB

f = 160 to 320 MHz 17 23 − dB

f = 320 to 640 MHz 15.5 22 − dB

f = 640 to 860 MHz 14 20 − dB
S

22

output return losses f = 40 to 80 MHz 20 27 − dB

f = 80 to 160 MHz 18.5 25 − dB

f = 160 to 320 MHz 17 20.5 − dB

f = 320 to 640 MHz 15.5 19 − dB

f = 640 to 860 MHz 14 19 − dB
S

21

CTB composite triple beat 49 channels flat; V

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

= 44 dBmV;

o

−−64.5 −62 dB

measured at 859.25 MHz
X

mod

cross modulation 49 channels flat; Vo= 44 dBmV;

−−64.5 −61 dB

measured at 55.25 MHz
CSO composite second order distortion 49 channels flat; V

= 44 dBmV;

o

−−67.5 −61 dB

measured at 860.5 MHz
d

2

V

o

second order distortion note 1 −−77 −70 dB
output voltage dim= −60 dB; note 2 59 60.5 − dBmV

F noise figure f = 50 MHz − 4 4.5 dB

f = 550 MHz −−5dB

f = 600 MHz −−5dB

f = 650 MHz −−5dB

f = 750 MHz −−5.5 dB

f = 860 MHz − 5 6.5 dB
I

tot

total current consumption (DC) note 3 − 220 235 mA

Notes

1. f

= 55.25 MHz; Vp= 44 dBmV;

p

fq= 805.25 MHz; Vq= 44 dBmV;
measured at fp+fq= 860.5 MHz.

2. Measured according to DIN45004B:
fp= 851.25 MHz; Vp=Vo;
fq= 858.25 MHz; Vq=Vo−6 dB;
fr= 860.25 MHz; Vr=Vo−6 dB;
measured at fp+fq−fr= 849.25 MHz.

3. The module normally operates at VB= 24 V, but is able to withstand supply transients up to 30 V.

1999 Mar 30 3

Philips Semiconductors Product specification

CATV amplifier module BGY887

Table 2 Bandwidth 40 to 860 MHz; VB= 24 V; T

=30°C; ZS=ZL=75Ω

case

SYMBOL PARAMETER CONDITIONS MIN. TYP. MAX. UNIT

G

p

power gain f = 50 MHz 21 21.5 22 dB

f = 860 MHz 21.5 22.5 − dB
SL slope cable equivalent f = 40 to 860 MHz 0.2 1 2 dB
FL flatness of frequency response f = 40 to 860 MHz −±0.2 ±0.3 dB
S

11

input return losses f = 40 to 80 MHz 20 29.5 − dB

f = 80 to 160 MHz 18.5 27.5 − dB

f = 160 to 320 MHz 17 23 − dB

f = 320 to 640 MHz 15.5 22 − dB

f = 640 to 860 MHz 14 20 − dB
S

22

output return losses f = 40 to 80 MHz 20 27 − dB

f = 80 to 160 MHz 18.5 25 − dB

f = 160 to 320 MHz 17 20.5 − dB

f = 320 to 640 MHz 15.5 19 − dB

f = 640 to 860 MHz 14 19 − dB
S

21

CTB composite triple beat 129 channels flat;

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

−−54 −51 dB

V

= 42 dBmV;

o

measured at 859.25 MHz
X

mod

cross modulation 129 channels flat;

−−60 −57 dB
Vo= 42 dBmV;
measured at 55.25 MHz

CSO composite second order distortion 129 channels flat;

V

= 42 dBmV;

o

−−605 −55 dB

measured at 860.5 MHz

d

2

V

o

second order distortion note 1 −−77 −70 dB

output voltage dim= −60 dB; note 2 59 60.5 − dBmV
F noise figure see Table 1 −−−dB
I

tot

total current consumption (DC) note 3 − 220 235 mA

Notes

1. f

= 55.25 MHz; Vp= 44 dBmV;

p

fq= 805.25 MHz; Vq= 44 dBmV;
measured at fp+fq= 860.5 MHz.

2. Measured according to DIN45004B:
fp= 851.25 MHz; Vp=Vo;
fq= 858.25 MHz; Vq=Vo−6 dB;
fr= 860.25 MHz; Vr=Vo−6 dB;
measured at fp+fq−fr= 849.25 MHz.

3. The module normally operates at VB= 24 V, but is able to withstand supply transients up to 30 V.

1999 Mar 30 4