English
Language : 

AMMC-5618 Datasheet, PDF (2/8 Pages) Agilent(Hewlett-Packard) – 6 - 20 GHz Amplifier
AMMC-5618 DC Specifications / Physical Properties [1]
Symbol Parameters and Test Conditions
Unit
Min.
Typical
VD1,VD2
Recommended Drain Supply Voltage
V
3
5
ID1
First stage Drain Supply Current
mA
48
(V D1= 5V, VG1 = Open or Ground)
ID2
Second stage Drain Supply Current
mA
59
(V D2= 5V, VG2 = Open or Ground)
ID1 + ID2
Total Drain Supply Current
mA
107
(VG1 = VG2 = Open or Ground, VD1= VD2 = 5 V)
θ ch-b
Thermal Resistance [2]
°C/W
22
(Backside temperature (Tb) = 25°C
Notes:
1. Backside temperature Tb = 25°C unless otherwise noted
2. Channel-to-backside Thermal Resistance θ( ) ch-b = 32°C/W at Tchannel (Tc) = 150°C as measured using infrared microscopy.
Thermal Resistance at backside temperature (Tb) = 25°C calculated from measured data.
Max.
7
140
AMMC-5618 RF Specifications [3, 5]
(Tb = 25°C, VDD= 5 V, IDD = 107 mA, Z0 = 50 Ω)
Symbol Parameters and Test Conditions
|S21|2
D|S21|2
RLin
RLout
|S12|2
P-1dB
Psat
OIP3
Small-signal Gain
Small-signal Gain Flatness
Input Return Loss
Output Return Loss
Isolation
Output Power at 1dB Gain Compression @ 20 GHz
Saturated Output Power (3dB Gain Compression) @ 20 GHz
Output 3rd Order Intercept Point @ 20 GHz
DS21 / DT
NF
Temperature Coefficient of Gain [4]
Noise Figure @ 20 GHz
Unit
dB
dB
dB
dB
dB
dBm
dBm
dBm
dB/°C
dB
Min.
12.5
9
9
40
17.5
Typical Max.
14.5
± 0.3
12
12
45
19.5
20.5
26
-0.023
4.4
6.5
Notes:
3. 100% on-wafer RF test is done at frequency = 6, 13 and 20 GHz, except as noted.
4. Temperature Coefficient of Gain based on sample test
5. All tested parameters guaranteed with measurement accuracy ±1.5dB for S12, ±1dB for S11, S21, S22, P1dB and ±0.5dB for NF.