Motorola CA2832C Datasheet

1

CA2832CMOTOROLA RF DEVICE DATA

The RF Line

  

. . . designed for amplifier applications in 50 to 100 ohm systems requiring wide
bandwidth, low noise and low distortion. This hybrid provides excellent gain
stability with temperature and linear amplification as a result of the push–pull
circuit design.

• Specified Characteristics at VCC = 28 V, TC = 25°C:
Frequency Range — 1 to 200 MHz
Output Power — 1580 mW Typ @ 1 dB Compression, f = 200 MHz
Power Gain — 35.5 dB Typ @ f = 100 MHz
PEP — 900 mW Typ @ –ā32 dB IMD
Noise Figure — 5 dB Typ @ f = 200 MHz
ITO — 47 dBm @ f = 200 MHz

• All Gold Metallization for Improved Reliability

• Unconditional Stability Under All Load Conditions

MAXIMUM RATINGS

Rating Symbol Value Unit

DC Supply Voltage V

CC

30 Vdc

RF Power Input P

in

+5 dBm

Operating Case Temperature Range T

C

–20 to +90 °C

Storage Temperature Range T

stg

–40 to +100 °C

ELECTRICAL CHARACTERISTICS (T

C

= 25°C, VCC = 28 V, 50 Ω system unless otherwise noted)

Characteristic

Symbol Min Typ Max Unit

Frequency Range BW 1 — 200 MHz
Gain Flatness (f = 1–200 MHz) — — ±0.5 ±1 dB
Power Gain (f = 100 MHz) P

G

34 35.5 37 dB
Noise Figure, Broadband (f = 200 MHz) NF — 5 6 dB
Power Output — 1 dB Compression (f = 1–200 MHz) Po

1dB

1260 1580 — mW

Power Output — 1 dB Compression (f = 150 MHz) Po

1dB

— 2000 — mW
Third Order Intercept (See Figure 10, f1 = 200 MHz) ITO 45 47 — dBm
Input/Output VSWR (f = 1–200 MHz) VSWR — 1.5:1 2:1 —
Second Harmonic Distortion (Po = 100 mW, f2H = 150 MHz) d

so

— –70 –60 dB
Peak Envelope Power (Two Tone Distortion Test — See Figure 10)

(f = 1–200 MHz @ –32 dB IMD)

PEP — 900 — mW

Supply Current I

CC

400 435 470 mA

Order this document

by CA2832C/D



SEMICONDUCTOR TECHNICAL DATA



35.5 dB

1–200 MHz

1.6 WATT

WIDEBAND

LINEAR AMPLIFIER

CASE 714F–03, STYLE 1

[CA (POS. SUPPLY)]

 Motorola, Inc. 1994

CA2832C
2

MOTOROLA RF DEVICE DATA

TYPICAL CHARACTERISTICS

f, FREQUENCY (MHz)

100 7006005004003002000

38

37
36

35

34

33

32
31

PG, POWER GAIN (dB)

– 3 dB POINTS fL = 0.3 MHz

fu = 312 MHz

TC = 25°C

28 VOLTS

NO CHANGE AT 24 AND 30 VOLTS

Figure 1. Power Gain versus Voltage

VCC = 28 V

f, FREQUENCY (MHz)

100 7006005004003002000

1.5

GAIN (dB)

∆

1.0

0.5

0.0

– 0.5
– 1.0

– 1.5

– 2.0

– 40°C
+ 100

°

C

(RELATIVE TO FREQUENCY RESPONSE AT 25°C)

Figure 2. Relative Power Gain versus Temperature

f, FREQUENCY (MHz)

100 7006005004003002000

TC = 25°C

38

36
34

32

30

28

26
24

Po1dB, POWER OUTPUT (dBm)

24 V
28 V

30 V

Figure 3. 1 dB Compression versus Voltage

TC = 25°C

f, FREQUENCY (MHz)

100 7006005004003002000

9

8
7

6

5

4

3
2

NF, NOISE FIGURE (dB)

24 V
28 V
30 V

Figure 4. Noise Figure versus Voltage

TC = 25°C

f, FREQUENCY (MHz)

100 7006005004003002000

56

54
52

50

48

46

44
42

ITO, 3RD ORDER INTERCEPT POINT (dBm)

24 V
28 V

30 V

Figure 5. Third Order Intercept versus Voltage

f, FREQUENCY (MHz)

100 7006005004003002000

TC = 25°C

36

34
32

30

28

26

24
22

PEP, POWER (dBm)

24 V
28 V

30 V

Figure 6. Peak Envelope Power versus Voltage