Data Sheet ADF4156
Rev. E | Page 3 of 24
SPECIFICATIONS
AV
DD
= DV
DD
= 2.7 V to 3.3 V, V
P
= AV
DD
to 5.5 V, AGND = DGND = 0 V, T
A
= T
MIN
to T
MAX
, dBm referred to 50 Ω, unless otherwise noted.
Table 1.
Parameter B Version Unit Test Conditions/Comments
1
RF CHARACTERISTICS
RF Input Frequency (RF
IN
) 0.5/6.2 GHz min/max −10 dBm min to 0 dBm max. For lower frequencies,
ensure slew rate (SR) > 400 V/µs.
REFERENCE CHARACTERISTICS
REF
IN
Input Frequency 10/250 MHz min/max For f < 10 MHz, use a dc-coupled CMOS-compatible
square wave, slew rate > 25 V/µs.
REF
IN
Input Sensitivity 0.4/AV
DD
V p-p min/max Biased at AV
DD
/2.
2
REF
IN
Input Capacitance 10 pF max
REF
IN
Input Current ±100 µA max
Phase Detector Frequency
3
32 MHz max
CHARGE PUMP
I
CP
Sink/Source Programmable.
High Value 5 mA typ With R
SET
= 5.1 kΩ.
Low Value 312.5 µA typ
Absolute Accuracy 2.5 % typ With R
SET
= 5.1 kΩ.
R
SET
Range 2.7/10 kΩ min/max
I
CP
Three-State Leakage Current 1 nA typ Sink and source current.
CP
P
I
CP
vs. V
CP
2 % typ 0.5 V < V
CP
< V
P
− 0.5.
I
CP
vs. Temperature 2 % typ V
CP
= V
P
/2.
LOGIC INPUTS
INH
V
INL
, Input Low Voltage 0.6 V max
I
INH
/I
INL
, Input Current ±1 µA max
C
IN
, Input Capacitance 10 pF max
LOGIC OUTPUTS
V
OH
, Output High Voltage 1.4 V min Open-drain output chosen; 1 kΩ pull-up to 1.8 V.
V
OH
, Output High Voltage V
DD
− 0.4 V min CMOS output chosen.
I
OH
, Output High Current 100 µA max
V
OL
, Output Low Voltage 0.4 V max I
OL
= 500 µA.
POWER SUPPLIES
AV
DD
2.7/3.3 V min/max
DV
DD
AV
DD
V
P
AV
DD
/5.5 V min/max
I
DD
32 mA max 26 mA typical.
Low Power Sleep Mode 1 µA typ
NOISE CHARACTERISTICS
Normalized Phase Noise Floor (PN
SYNTH
)
4
−220 dBc/Hz typ PLL loop BW = 500 kHz. Measured at 100 kHz offset.
Normalized 1/f Noise (PN
1_f
)
5
−110 dBc/Hz typ 10 kHz offset; normalized to 1 GHz.
Phase Noise Performance
6
At VCO output.
5800 MHz Output
7
−89 dBc/Hz typ At 5 kHz offset, 25 MHz PFD frequency.
1
Operating temperature for B version: −40°C to +85°C.
2
AC coupling ensures AV
DD
/2 bias.
3
Guaranteed by design. Sample tested to ensure compliance.
4
The synthesizer phase noise floor is estimated by measuring the in-band phase noise at the output of the VCO and subtracting 20 log(N) (where N is the N divider
value) and 10 log(F
PFD
). PN
SYNTH
= PN
TOT
− 10 log(F
PFD
) − 20 log(N).
5
The PLL phase noise is composed of 1/f (flicker) noise plus the normalized PLL noise floor. The formula for calculating the 1/f noise contribution at an RF frequency, F
RF
,
and at a frequency offset f is given by PN = PN
1_f
+ 10 log(10 kHz/f) + 20 log(F
RF
/1 GHz). Both the normalized phase noise floor and flicker noise are modeled in ADIsimPLL.
6
The phase noise is measured with the EV-ADF4156SD1Z evaluation board and the Agilent E5500 phase noise system.
7
f
REFIN
= 100 MHz, f
PFD
= 25 MHz, offset frequency = 5 kHz, RF
OUT
= 5800 MHz, N = 232, loop bandwidth = 20 kHz, I
CP
= 313 µA, and lowest noise mode.