HMMC-5023 DC Specifications/Physical Properties[1]
Symbol Parameters and Test Conditions
Units Min. Typ.
VD1, VD2 Recommended Drain Supply Voltage
V
3
VG1, VG2
Gate Supply Voltage
[VD1 ≤ VD1(max), VD2 ≤ VD2(max)]
V
0.4
ID1, ID2
Input and Output Stage Drain Supply Current
(VG1 = VG2 = Open, VD1 = VD2 = 5 Volts)
mA
12
ID1 + ID2 Total Drain Supply Current
mA
13
(VG1 = VG2 = Open, VD1 = VD2 = 5 Volts)
θch-bs
Thermal Resistance[3]
°C/Watt
(Channel-to-Backside at Tch = 150°C)
Tch
Channel Temperature[4] (TA = 140°C, MTTF = 106 hrs,
°C
VG1 = VG2 = Open, VD1 = VD = 5 Volts)
5
0.8[2]
35
24
75
150
Notes:
1. Backside ambient operating temperature TA = 25°C unless otherwise noted.
2. Open circuit voltage at VG1 and VG2 when VD1 and VD2 are 5 volts.
3. Thermal resistance (in °C/Watt) at a channel temperature T (°C) can be estimated using this equation:
θ(T)@75x[T(°C)+ 273]/[150°C+ 273].
4. Derate MTTF by a factor of two for every 8°C above Tch.
Max.
7
2
30
HMMC-5023 RF Specifications,
Top = 25°C, VD1 = VD2 = 5 V, VG1 = VG2= Open, ZO = 50 Ω, unless otherwise noted
21.2–23.6 GHz
24.5–26.5 GHz
Symbol
Parameters and Test Conditions Units Min. Typ. Max. Min. Typ. Max.
BW
Operating Bandwidth
GHz 21.2
23.6 24.5
26.5
Gain Small Signal Gain
dB 21 24 28 17 21 25
∆ Gain Small Signal Gain Flatness
dB
±1
± 1.5
(RLin)MIN
(RLout)MIN
Isolation
Minimum Input Return Loss
Minimum Output Return Loss
Reverse Isolation
dB 10 12
dB 8 10
dB 40 50
12 20
8 10
40 48
Output Power @ 1 dB Gain Compression dBm
10
10
P-1dB
Output Power @ 1 dB Gain Compression dBm
14
14
(VD = 5 V, VG1= Open, VD2 = 7 V,
VG2 set for ID2 = 35 mA)
Psat
Saturated Output Power
dBm
12
12
(@ 3 dB Gain Compression)
2nd Harm.
NF
Second Harmonic Power Level
[f = 2fo, Pout(fo) = P-1dB,
21.2 GHz ≤ fo ≤ 23.6 GHz]
Noise Figure, 22 GHz
Noise Figure, 25 GHz
dBc
-30
-30
dB
2.5 3.0
2.8 3.3
6-35