English
Language : 

HMMC-3102 Datasheet, PDF (2/8 Pages) Agilent(Hewlett-Packard) – DC - 16 GHz Packaged Divide-by-2 Prescaler
dc Specifications/Physical Properties
(TA = 25°C, VCC – VEE = 5.0 volts, unless otherwise listed)
Symbol
Parameters/Conditions
Min.
Typ.
Max.
VCC – VEE
Operating bias supply difference1
4.5
5.0
6.5
|ICC| or |IEE|
Bias supply current
68
80
92
VRFin(q)
Quiescent dc voltage appearing at all RF ports
VCC
VRFout(q)
VLogic
Nominal ECL Logic Level
(VLogic contact self-bias voltage, generated on-chip)
VCC -1.45 VCC -1.35 VCC -1.25
Notes
1. Prescaler will operate over full specified supply voltage range, VCC or VEE not to exceed limits specified in Absolute Maximum Ratings section.
Units
volts
mA
volts
volts
RF Specifications
(TA = 25°C, Z0 = 50 Ω, VCC – VEE = 5.0 volts)
Symbol
Parameters/Conditions
Min.
Typ.
Max.
Units
ƒin(max)
ƒin(min)
ƒSelf-Osc.
Maximum input frequency of operation
Minimum input frequency of operation1
(Pin = -10 dBm)
Output Self-Oscillation Frequency2
16
18
0.2
0.5
3.4
Pin
@ dc, (Square-wave input)
-15
> -25
+10
@ ƒin = 500 MHz, (Sine-wave input)
-15
> -20
+10
ƒin = 1 to 10 GHz
-15
> -25
+10
ƒin = 10 to 12 GHz
-10
> -15
+10
ƒin = 12 to 15 GHz
-4
> -10
+4
RL
Small-Signal Input/Output Return Loss (@ ƒin < 12 GHz)
15
S12
Small-Signal Reverse Isolation (@ ƒin < 12 GHz)
30
φN
SSB Phase noise (@ Pin = 0 dBm, 100 kHz offset from a
-153
ƒout = 1.2 GHz Carrier)
Jitter
Input signal time variation @ zero–crossing
1
(ƒin = 10 GHz, Pin = -10 dBm)
Tr or Tf
Output transition time (10% to 90% rise/fall time)
70
Notes
1. For sine-wave input signal. Prescaler will operate down to D.C. for square-wave input signal. Minimum divide frequency limited by input slew-rate.
2. Prescaler may exhibit this output signal under bias in the absence of an RF input signal. This condition may be eliminated by use of the Input dc offset technique
described on page 4.
GHz
GHz
GHz
dBm
dBm
dBm
dBm
dBm
dB
dB
dBc/Hz
ps
ps
2