AMMC-5033
17.7 - 32 GHz Power Amplifier
Data Sheet
Chip Size: 2730 x 1300 µm (108 x 51.6 mils)
Chip Size Tolerance: ± 10 µm (±0.4 mils)
Chip Thickness: 100 ± 10 µm (4 ± 0.4 mils)
Pad Dimensions: 80 x 80 µm (2.95 ± 0.4 mils)
Description
Avago’s AMMC-5033 is a MMIC power amplifier designed
for use in wireless transmitters that operate within
17.7 GHz to 32 GHz range. At 25 GHz, it provides 27 dBm
of output power (P-1dB) and 20 dB of small- signal gain
from a small easy-to-use device. The device has input
and output matching circuitry for use in 50 Ω environ-
ments. The AMMC- 5033 also integrates a temperature
compensated RF power detection circuit that enables
power detection of 0.1 V/W at 22 GHz. For improved
reliability and moisture protection, the die is passivated
at the active areas.
Features
•
•
•
•
•
Wide frequency range: 17.7 – 32 GHz
High power: P-1dB @ 25 GHz = 27 dBm
High gain: 20 dB
Return loss: Input: -13 dB, Output: –20 dB
Integrated RF power detector
Applications
• Designed for use in transmitters that operate in various
frequency bands between 17.7 GHz and 32 GHz.
• Can be driven by the AMMC-5040 (20-40 GHz) or the
AMMC-5618 (6-20 GHz) MMIC amplifiers, increasing
the power handling capability of transmitters requiring
linear operation.
AMMC-5033 Absolute Maximum Ratings
[1]
Symbol
V
d1,2
V
g1
, V
gg
Det Bias
I
d1
I
d2
P
in
T
ch
T
stg
T
max
Parameters/Conditions
Positive Drain Voltage
Gate Supply Voltage
Applied Detector Bias
(Optional)
First Stage Drain Current
CW Input Power
Operating Channel Temp.
Storage Case Temp.
Maximum Assembly Temp.
(60 sec max)
Units
V
V
V
mA
dBm
°C
°C
°C
Min. Max.
7
-3
0.5
7
320
640
23
+150
-65
+150
+300
Second Stage Drain Current mA
Note:
1. Operation in excess of any one of these conditions may result
in permanent damage to this device.
Note: These devices are ESD sensitive. The following precautions are strongly recommended:
Ensure that an ESD approved carrier is used when dice are transported from one destination to another.
Personal grounding is to be worn at all times when handling these devices.