HMC700LP4 / 700LP4E
v11.0411
8 GHz 16-Bit Fractional-N PLL
PLL - Fractional-N - SMT
0
0-1
Features
• 8 GHz, 16 bit prescaler
• 24 bit step size resolution, 3 Hz typ
• Fractional or Integer Modes
• 200 MHz, 14bit reference path input
• Ultra Low Phase Noise
6 GHz; 50 MHz Ref.
-103 / -108 dBc/Hz @ 20 kHz
(Frac / Integer)
• Direct FSK Modulation Mode
Figure of Merit (FOM)
-221 / -226 dBc/Hz (Frac / Integer)
• Cycle Slip Prevention
• Read / Write Serial Port, Chip ID
• 24 Lead 4x4mm SMT Package: 16mm²
Typical Applications
• Base Stations for Mobile Radio
• Phased Array Applications
• WiMAX
• Simple FSK Links
• Test & Measurement
• DDS Replacement
• CATV Equipment
Functional Diagram
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978-250-3343 tel • 978-250-3373 fax • Order
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HMC700LP4 / 700LP4E
v11.0411
8 GHz 16-Bit Fractional-N PLL
The HMC700LP4(E) is a SiGe BiCMOS fractional-N PLL. The PLL includes a very low noise digital phase frequency
detector (PFD), and a precision controlled charge pump.
The fractional PLL features an advanced delta-sigma modulator design that allows both ultra-fine step sizes and very
low spurious products. Spurious outputs are low enough to eliminate the need for costly Direct Digital Synthesis (DDS)
references in many applications.
The HMC700LP4(E) phase-frequency detector (PFD) features cycle slip prevention (CSP) technology that allows
faster frequency hopping times.
Ultra low in-close phase noise and low spurious also permit architectures with wider loop bandwidths for faster
frequency hopping and low micro-phonics. FSK mode allows the synthesizer to be used as a simple low cost direct
FM transmitter source.
Recommended level >500mVpp. With 250mVpp phase noise degradation may occur.
Electrical Specifications, VDDCP, VCCCP = 5V; RVDD, AVDD, DVDDM, VDDPFD, DVDD,
VDDIO, DVDDQ, VCCPS, AVCC = 3.3V ±5%; AGND = DGND = 0V
Parameter
Conditions
Min
Typ
Max
Units
200
MHz
0
dBm
dBm
PLL - Fractional-N - SMT
0
General Description
RF Input Characteristics
Max RF Input Frequency (3.3V)
8
Min RF Input Frequency
RF Input Sensitivity
RF Input Level Differential
16 bit divider (Integer)
16 bit divider (fractional)
9
100
AC coupling only. Recommended
range -10 to -5dBm. Operation with
higher levels, up to +7dBm is allowable, but phase noise degradation
may occur.
-10
GHz
AC coupling only.
-16
+6
N Divide ratio, 216 + 31
32
65,567
216-1
36
65,535
REF Input Characteristics
Max Ref Input Frequency (3.3V)
200
MHz
Min Ref Input Frequency
Ref Input Sensitivity
Ref Input Level Differential
14 bit Ref Divider Range
200
kHz
3000
mVpp
mVpp
AC coupling only. Recommended
level >500mVpp. With 250mVpp
phase noise degradation may
occur.
250
AC coupling only
250
5000
1
16,383
Phase Detector
Phase Detector Frequency (Frac)
Phase Detector Frequency (Integ)
50
0.2
70
MHz
100
MHz
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other
One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106
rights of third parties that may result from its use. Specifications subject to change without notice. No
978-250-3343 tel • 978-250-3373 fax • Order
On-line
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0-2
HMC700LP4 / 700LP4E
v11.0411
8 GHz 16-Bit Fractional-N PLL
PLL - Fractional-N - SMT
0
Electrical Specifications, VDDCP, VCCCP = 5V; RVDD, AVDD, DVDDM, VDDPFD, DVDD,
VDDIO, DVDDQ, VCCPS, AVCC = 3.3V ±5%; AGND = DGND = 0V
Parameter
Conditions
Min
Typ
Max
Units
Charge Pump
Max Output Current
2
Min Output Current
Charge Pump Noise
Input referred, 50 MHz ref, 20 kHz
mA
500
µA
-145
dBc/Hz
Logic Inputs
VIH Input High Voltage
VDDIO-0.4
VDDIO
V
VIL Input Low Voltage
0
0.4
V
VOH Input High Voltage
VDDIO-0.4
VDDIO
V
VOL Input Low Voltage
0
Logic Outputs
Serial Port Max Clock
0.4
50
V
MHz
Power Supplies
RVDD, AVDD, VDDPFD,
AVCC, VCCPS - Analog supply
AVDD should equal DVDD
2.7
3.3
3.4
V
All must be equal
2.7
3.3
3.4
V
VCCCP and VDDCP must be equal
4.5
5
5.5
V
DVDD, DVDDM, DVDDQ, VDDIO – Digital Supply
VDDCP, VCCCP
Charge Pump Supplies
Total Current Consumption (5V)
6 GHz operation
5.5
7
mA
Total Current Consumption (3V)
6 GHz operation
90
110
mA
1
10
µA
1.920
1.960
V
Power Down Current
Bias Reference Voltage
Measured with 10 G Ohm Meter
1.880
Phase Noise
6 GHz VCO, Integer Mode
20kHz offset, 50 MHz fPFD
-108
dBc/Hz
6 GHz VCO, Fractional Mode
20kHz offset, 50 MHz fPFD
-103
dBc/Hz
Absolute Maximum Ratings
Nominal 3V Supplies to GND
-0.3V to +3.6V
Nominal 3V Digital Supply to
3V Analog Supply
-0.3V to +0.3V
Nominal 5V Supply to GND
-0.3V to +5.8V
VCO Divider Input Single-Ended
+7 dBm
VCO Divide Input Differential
+13 dBm
Maximum Junction Temperature
+125 °C
Continuous Power Diss. (T= 85° C)
(Derate 51 mW/°C above 85°C
3.3 W
Thermal Resistance (R1)
(junction to ground paddle)
19.7 °C/W
Stresses above those listed under Absolute Maximum
Ratings may cause permanent damage to the device.
This is a stress rating only; functional operation of the
device at these or any other conditions above those
indicated in the operational section of this specification
is not implied. Exposure to absolute maximum rating
conditions for extended periods may affect device
reliability.
Reflow Soldering
Peak Temperature
Time at Peak Temperature
Operating Temperature
0-3
260 °C
40 Sec
-40 °C to +85 °C
Storage Temperature Range
-65 °C to +125 °C
ESD Sensitivity (HBM)
Class 1B
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for its use,
nor for any
infringements
of patents orCorporation,
other
One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106
rights of third parties that may result from its use. Specifications subject to change without notice. No
978-250-3343 tel • 978-250-3373 fax • Order
On-line
at www.hittite.com
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781-329-4700
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HMC700LP4 / 700LP4E
v11.0411
8 GHz 16-Bit Fractional-N PLL
Pin Number
Function
Description
1
SCK
Serial port clock input
2
SDI
Serial port data input
3
DVDD
Power supply pin for internal digital circuitry. Nominally 3V
4
VDDIO
Power Supply for digital I/O driver
5
LD_SDO
Lock Detect, Main Serial Data Output
or VCO Serial Port Data Out
6
D0
GPO Output Bit 0, VCO Serial Port LE
when in VCO Serial Port Mode
7
D1
GPO Output Bit 1, VCO Serial Port Clock
when in VCO Serial Port Mode
8
DVDDM
Digital Power Supply for M-Counter, Nominally 3V
9
VCCPS
Analog Power Supply for Prescaler, Nominally 3V
10
RFIP
Input to the RF Prescaler. This small signal
input is ac-coupled to the external VCO.
11
RFIN
Complementary Input to the RF Prescaler. For single-ended input
this point must be decoupled to the ground plane with a ceramic
bypass capacitor, typically 100 pF.
12
AVCC
Analog Power supply pin for the RF Section.
A decoupling capacitor to the ground plane should
be placed as close as possible to this pin. Nominally 3V
13
VDDCP
+5V Power Supply for charge pump digital section
14
VCCCP
+5V Power Supply for the charge pump analog section
15
CP
Charge pump output
16
VDDPFD
Analog Power supply for the phase frequency detector, Nominally 3V
17
BIAS [1]
External bypass decoupling for precision bias circuits, 1.920V ±20 mV [1]
18
AVDD
Analog Power supply for analog ref paths, Nominally 3V
19
REFN
Reference input (Negative or decoupled)
20
REFP
Reference input (Positive)
21
RVDD
Ref path supply
22
DVDDQ
Digital supply for Substrate, Nominally 3V
23
CE
Chip Enable
24
SEN
Serial port latch enable input
PLL - Fractional-N - SMT
0
Pin Descriptions
[1] NOTE: BIAS ref voltage cannot drive an external load. Must be measured with 10GOhm meter such as Agilent 34410A, typical 10Mohm DVM
will read erroneously.
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for its use,
nor for any
infringements
of patents orCorporation,
other
One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106
rights of third parties that may result from its use. Specifications subject to change without notice. No
978-250-3343 tel • 978-250-3373 fax • Order
On-line
at www.hittite.com
Phone:
781-329-4700
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0-4
HMC700LP4 / 700LP4E
v11.0411
8 GHz 16-Bit Fractional-N PLL
Typical Phase Noise Plots
-90
-110
-99.5dBc, 1GHz, 200kHz PFD = -226.4dBc FOM
-107dBc, 1GHz, 25MHz PFD = -213dBc FOM
-90
PHASE NOISE (dBc/Hz)
PHASE NOISE (dBc/Hz)
-70
5801 MHz Fractional
5800 MHz Integer
2901 MHz Fractional
2900 MHz Integer
725 MHz Fractional
-100
-120
-130
-140
-150
Integer Mode 200kHz PFD
-110
Fractional Mode 25MHz PFD
-130
-150
All Plots 50 MHz PFD
-160
-170
3
10
10
4
10
5
10
6
10
7
10
-170
8
10
2
10
3
4
10
5
10
6
10
7
10
8
Figure 3.
Figure 4.
Typical Phase Noise Performance vs.
Charge Pump Output Voltage
RF Divider Sensitivity vs. Frequency,
Mode and Temperature, +3.3V
-80
6
20
-85
5
10
4
-95
3
Phase Noise
-100
2
Tuning Voltage
-110
3800
4200
4600
5000
FRACTIONAL
+85C
INTEGER
SENSITIVITY (dBm)
-90
-105
0
+25C
-10
-20
1
-30
0
5400
-40
FRACTIONAL
INTEGER
0
2000
4000
6000
8000
Figure 6.
Example of Cycle Slip Prevention for
Frequency Hop from 5200 to 3950 MHz
Typical Reference Sensitivity
vs. Frequency, 3.3V
5300
20
5100
10
4900
0
SENSITIVITY (dBm)
FREQUENCY (MHz)
Figure 5.
CSP OFF
4700
4500
CSP ON
4300
4100
3900
-10
10000
FREQUENCY (MHz)
FREQUENCY (MHz)
R = Max, +25C
R = Max, +85C
-10
R = 3, +25C
R = 3, +85C
-20
-30
-40
0
10
20
30
40
TIME (USEC)
0-5
10
FREQUENCY OFFSET (Hz)
FREQUENCY OFFSET (Hz)
PHASE NOISE (dBc/Hz)
PLL - Fractional-N - SMT
Comparison of Low PFD Integer Mode
w/ High PFD Fractional at 1 GHz
TUNING VOLTAGE (V)
0
Figure 2.
Figure 1.
50
60
70
-50
0
50
100
150
200
250
300
FREQUENCY (MHz)
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One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106
rights of third parties that may result from its use. Specifications subject to change without notice. No
978-250-3343 tel • 978-250-3373 fax • Order
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HMC700LP4 / 700LP4E
v11.0411
8 GHz 16-Bit Fractional-N PLL
The HMC700LP4(E) is targeted for ultra low phase noise applications. The synthesizer has been designed with very
low noise reference path, phase detector and charge pump.
External VCO
The HMC700LP4(E) is targeted for ultra low phase noise applications with an external VCO. The synthesizer charge
pump can operate with the charge pump supply as high as 5.5 Volts. The charge pump output at the varactor tuning
port, normally can maintain low noise performance to within 500mV of either ground or the upper supply voltage (see
example (figure 3)
Figure 7. HMC700LP4(E) Synthesizer with External VCO
PLL - Fractional-N - SMT
0
Theory of Operation
High Performance Low Spurious Operation
The HMC700LP4(E) has been designed for the best phase noise possible in an integrated synthesizer. Spurious
signals in a synthesizer can occur in any mode of operation and can come from a number of sources. In general
spurious can be the result of interference that gets through the loop filter and modulates the input tuning port of the
VCO directly. It can also result from interference that modulates the VCO indirectly through power supplies, ground,
or output ports, or bypasses the loop filter due to poor isolation of the filter. It can also simply add to the output of the
synthesizer.
Interference is always present at multiples of the PFD frequency, and the input reference frequency. Depending upon
the mode of operation of the synthesizer spurious may also occur at integer sub-multiples of the reference frequency.
If the fractional mode of operation is used the difference between the VCO frequency and the nearest harmonic of the
reference, will also create what are referred to as integer boundary spurs.
The synthesizer necessarily contains digital circuitry to control the prescaler. The circuitry mostly operates at the PFD
frequency. There is more circuitry active in fractional mode, hence more full switching CMOS is used and the potential
for interference is greater.
The HMC700LP4(E) has been designed and tested for low spurious performance in either integer or fractional mode
of operation. Reference spurious levels are typically below -100 dBc, and in-band fractional boundary spurious are
typically below integrated phase noise, frequency planning can improve spurious performance in many cases.
Reference spurious levels of below -100 dBc require superb board isolation of power supplies, isolation of the VCO from
the digital switching of the synthesizer, isolation of the VCO load from the synthesizer and isolation of the crystal from
the VCO. Typical board layout, evaluation boards and application information are available for low spurious operation.
Operation with lower levels of isolation in the application circuit board from those recommended by Hittite may result in
higher spurious levels.
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978-250-3343 tel • 978-250-3373 fax • Order
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0-6
HMC700LP4 / 700LP4E
v11.0411
8 GHz 16-Bit Fractional-N PLL
PLL - Fractional-N - SMT
0
Reference Input Stage
The reference input provides the path from the external reference source to the phase detector. The input stage of the
reference path is shown in Figure 8. HMC700LP4(E) is a DC coupled, common emitter differential NPN buffer. Input
pins have 1.8V bias on them. Expected input is full swing 3V CMOS. Slightly degraded phase noise performance may
result with quasi sine or sine inputs. Input reference should have a noise floor better than -155 dBc/Hz at 50MHz to
avoid degradation of the input reference path. The input reference path phase noise floor is approximately equivalent to
-155 dBc/Hz. This input should be well isolated from the VCO for best spurious performance in fractional mode.
Figure 8. Reference Path Input Stage
Ref Path ’R’ Divider
The reference path “R” divider is based on a 14 bit counter and can divide input signals of up to 220 MHz input by
values from 1 to 16,383 and is controlled by rdiv (Table 9).
RF Input Stage
The RF input stage provides the path from the external VCO to the phase detector via the fractional divider. The RF
input path is rated to operate nominally from 100 MHz to 8 GHz. The HMC700LP4(E) RF input stage is a differential
common emitter stage with DC coupling, and is protected by ESD diodes as shown in Figure 9. The RF Input stage is
internally matched from a single ended 50 ohm source above about 3.5 GHz, with the complimentary input grounded.
If a better match is required at low frequency a simple shunt 50ohm resistor can be used external to the package.
The RF input stage has excellent sensitivity (see figure 4). Excessive drive levels can result in more coupling and
spurious products in fractional mode. -10 dBm is a recommended drive level.
Figure 9. RF Input Stage
0-7
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HMC700LP4 / 700LP4E
v11.0411
8 GHz 16-Bit Fractional-N PLL
0
RF Path ’N’ Divider
The main RF path divider is capable of average divide ratios between 2 -1 (65,535) and 36 in fractional mode, and
216 + 31 (65,567) to 32 in integer mode.
Charge Pump and Phase Frequency Detector
The Phase Frequency Detector or PFD has two inputs, one from the reference path divider and one from the RF path
divider. When in lock these two inputs are at the same average frequency and are fixed at a constant average phase
offset with respect to each other. We refer to the frequency of operation of the PFD as ƒPFD. Most formula related to
step size, delta-sigma modulation, timers etc., are functions of the operating frequency of the PFD, ƒPFD. The PFD
compares the phase of the RF path signal with that of the reference path signal and controls the charge pump output
current as a linear function of the phase difference between the two signals. The output current varies linearly over a
full ±2π radians input phase difference.
PFD Test Functions
Phase detector registers are mainly used in test. pfd_phase_sel in Table 18 reverses the polarity of the phase
detector, to allow for negative slope VCO or inverting op-amp in the loop filter.
pfd_up_en in Table 18 allows masking of the PFD up output, which effectively prevents the charge pump
from pumping up.
pfd_dn_en in Table 18 allows masking of the PFD down output, which effectively prevents the charge pump
from pumping down.
De-asserting both pfd_up_en and pfd_dn_en effectively tri-states the charge pump while leaving all other
functions operating internally.
PLL - Fractional-N - SMT
16
PFD Jitter and Lock Detect Background
In normal phase locked operation the divided VCO signal arrives at the phase detector in phase with the divided
crystal signal, known as the PFD reference signal. Despite the fact that the device is in lock, the phase of the VCO
signal and the PFD reference signal vary in time due to the phase noise of the reference and VCO oscillators, the loop
bandwidth used and the presence of fractional modulation or not. The total integrated noise from the VCO normally
dominates the variations in the two arrival times at the phase detector in integer mode.
If we wish to detect if the VCO is in lock or not we need to distinguish between normal phase jitter when in lock and
phase jitter when not in lock.
First, we need to understand what is the jitter of the synthesizer, measured at the phase detector in integer or fractional
modes.
The standard deviation of the arrival time of the VCO signal, or the jitter, in integer mode may be estimated with a
simple approximation if we assume that the locked VCO has a constant phase noise, Ф2 (ƒ0), at offsets less than
the loop 3 dB bandwidth and a 20 dB per decade rolloff at greater offsets. The simple locked VCO phase noise
approximation is shown in Figure 10.
Ф2 (ƒ0)
Ф2 (ƒ0)
r 2 /Hz
ƒ0
B
Figure 10. Synthesizer Phase Noise & Jitter
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0-8
HMC700LP4 / 700LP4E
v11.0411
8 GHz 16-Bit Fractional-N PLL
0
PFD Jitter and Lock Detect Background (Continued)
PLL - Fractional-N - SMT
With this simplification the total integrated VCO phase noise, f2, in rads2 at the phase detector is given by
(EQ 1)
where
B is the 3 dB corner frequency of the closed loop PLL
N is the division ratio of the prescaler
Since the simple integral of (EQ 1) is just a product of constants, we can easily do the integral in the log domain. For
example if the VCO phase noise inside the loop is -100 dBc/Hz at 10 kHz offset and the loop bandwidth is 100 kHz,
and the division ratio is 100, then the integrated phase noise at the phase detector, in dB, is given by:
f 2dB = 10log (f2 (ƒ0) Bπ/N 2 ) = -100 +50 +5 -40 = 85dBrads 2
or equivalently, f = 10 -85/20 = 56.2 urads = 3.22 milli-degrees rms.
While the phase noise reduces by a factor of 20logN after division to the reference, due to the increased period of the
PFD reference signal, the jitter is constant.
The rms jitter from the phase noise is then given by Tjpn = TPFDf /2π
In this example if the PFD reference was 50MHz, TPFD = 20nsec, and hence Tjpn = 0.179 psec.
A normal 3 sigma peak-to-peak variation in the arrival time therefore would be ±3Tjpn = ±0.759 psec.
If the synthesizer was in fractional mode, the fractional modulation of the VCO divider will dominate the jitter. The
exact standard deviation of the divided VCO signal will vary based upon the modulator type chosen, however a typical
modulator will vary by about ±3 division ratios, ±4 division ratios, worst case.
If, for example a nominal VCO at 5 GHz is divided by 100 to equal the PFD reference at 50 MHz, then the worst
case division ratios will vary by 100 ±4. Hence the peak variation in the arrival times caused by ∆∑ modulation of the
fractional synthesizer at the reference will be
(EQ 2)
If we note that the distribution of the delta sigma modulation is approximately Gaussian, we could approximate TjΔ∑pk
as a 3 sigma jitter, and hence we could estimate the rms jitter of the ∆∑ modulator as about 1/3 of TjΔ∑pk or about 266
psec in this example.
Hence the total rms jitter Tj, expected from the delta sigma modulation plus the phase noise of the VCO would be
given by the rms sum, where
(EQ 3)
In this example the jitter contribution of the phase noise calculated previously would add only 0.18psec more jitter at
the reference, hence we see that the jitter at the phase detector is totally dominated by the fractional modulation.
Hence, we have to expect about ±800 psec of normal variation in the phase detector arrival times when in fractional
mode. In addition, lower VCO frequencies with high PFD reference frequencies will have much larger variations. For
example a 1GHz VCO operating at near the minimum nominal divider ratio of 36, would according to (EQ 2) exhibit
about ±4 nsec of peak variation at the phase detector, under normal operation.
0-9
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HMC700LP4 / 700LP4E
v11.0411
8 GHz 16-Bit Fractional-N PLL
In summary, the lock detect circuit must not interpret fractional modulation or normal phase noise related jitter as
being out of lock, while at the same time declaring loss of lock when truly out of lock.
PFD Lock Detect
lkd_enable in Table 14 enables the lock detect functions of the HMC700LP4(E).
The Lock Detect circuit in the HMC700LP4(E) places a one shot window around the reference. The one shot window
may be generated by either an analog one shot circuit or a digital one shot based upon an internal ring oscillator.
Clearing ringosc_oneshot_sel (Table 14) will result in a fixed analog based nominal 10 nsec window, as shown in
Figure 11. Setting ringosc_oneshot_sel will result in a variable length widow based upon a high frequency internal ring
oscillator. The ring oscillator frequency is controlled by ringosc_cfg. The resulting lock detect window period is then
generated by the number of ring oscillator periods defined in oneshot_duration, both in (Table 14).
wincnt_max in Table 14 defines the number of consecutive counts of the divided VCO that must land inside the lock
detect window to declare lock. If for example we set wincnt_max = 1000 , then the VCO arrival would have to occur
inside the ±10 nsec widow 1000 times in a row to be declared locked, which results in a Lock Detect Flag high. A single
occurrence outside of the window will result in an out of lock, i.e. Lock Detect Flag low. Once low, the Lock Detect Flag
will stay low until the wincnt_max =1000 condition is met again.
The Lock Detect Flag is output to LD_SDO pin according to pfd_LD_opEn (Table 18) or to the internal SPI read only
register if locked = 1 (Table 21). Setting pfd_LD_opEn will display the Lock Detect Flag on LD_SDO except when a
serial port read is requested, in which case the pin reverts temporarily to the Serial Data Out pin, and returns to the
Lock Detect Flag after the read is completed. Timing of the Lock Detect and Serial Data Out functions are shown in
Figure 11.
0
PLL - Fractional-N - SMT
PFD Jitter and Lock Detect Background (Continued)
Figure 11. Normal Lock Detect Window
When operating in fractional mode the linearity of the charge pump and phase detector are much more critical than in
integer mode. The phase detector linearity is worse when operated with zero phase offset. Hence in fractional mode
it is necessary to offset the phase of the PFD reference and the VCO at the phase detector. In such a case, for
example with an offset delay, as shown in Figure 12, the VCO arrival will always occur after the reference. The
lock detect circuit can accommodate a fixed offset delay by setting lkd_win_asym_enable and win_asym_up_sel in
Table 14. Similarly the offset can be in advance of the reference by clearing lkd_win_asym_up_sel while leaving
lkd_win_asym_enable set both in Table 14. There are certain conditions, such as operating near the supply limits of
the charge pump which make it advantageous to use advanced or delayed phase offset, hence both are available.
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0 - 10
HMC700LP4 / 700LP4E
v11.0411
8 GHz 16-Bit Fractional-N PLL
PLL - Fractional-N - SMT
0
PFD Lock Detect (Continued)
Figure 12. Delayed Lock Detect Window
Cycle Slip Prevention (CSP)
When the VCO is not yet locked to the reference, the instantaneous frequencies of the two paths are different, and
the phase difference of the two paths at the PFD varies rapidly over a range much greater than ±2π radians. Since
the gain of the PFD varies linearly with phase up to ±2π, the gain of a conventional PFD will cycle from high gain,
when the phase difference approaches a multiple of 2π, to low gain, when the phase difference is slightly larger than
a multiple of 0 radians. The charge on the loop filter small cap may actually discharge slightly during the low gain
portion of the cycle. This can make the VCO frequency actually reverse temporarily during locking. This phenomena
is known as cycle slipping. Cycle slipping causes the pull-in rate during the locking phase to vary cyclically as shown
in the red curve in Figure 13, and increases the time to lock to a value far greater than that predicted by normal small
signal Laplace analysis.
The HMC700LP4(E) PFD features an ability to virtually eliminate cycle slipping during acquisition. When enabled,
the Cycle Slip Prevention (CSP) feature essentially holds the PFD gain at maximum until such time as the frequency
difference is near zero. Cycle Slip Prevention, allows faster lock times as shown in Figure 13. The use of the cycle slip
feature is enabled with csp_enable (see Table 14) .
The Cycle Slip Prevention feature may be optimized for a given set of PLL dynamics by adjusting the PFD sensitivity
to cycle slipping. This is achieved by adjusting csp_corr_magn in Table 13.
Figure 13. Cycle Slip Prevention (CSP)
0 - 11
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HMC700LP4 / 700LP4E
v11.0411
8 GHz 16-Bit Fractional-N PLL
A simplified diagram of the charge pump is shown in Figure 14. Charge pump up and down gains are set by
cp_UPcurrent_sel and cpDNcurrent_sel respectively (Table 16). Each of the UP and DN charge pumps consist of
two 500uA current sources and one 1000uA current source. The current gain of the pump in radians/Amp is equal to
the gain setting of this register divided by 2π. For example if both cp_UPcurrent_sel and cpDNcurrent_sel are set to
’010’ the output current of each pump will be 1mA and the phase detector gain Kp = 1mA/2π radians, or 159uA/rad.
Charge Pump Gain Trim
Each of the UP and DN pumps may be trimmed to more precise values to improve current source matching or to allow
finer control of pump gain. The pump trim controls are 4bits, binary weighted for UP and DN, in cp_UPtrim_sel and
cp_DNtrim_sel respectively (Table 16). LSB weight is 7µA, maximum trim is 105µA.
Charge Pump Phase Offset
Ideally the phase detector operates with zero offset, that is, the divided reference signal and the divided VCO signal
arrive at the phase detector inputs at exactly the same time. In some modes of operation, such as fractional mode,
charge pump linearity and ultimately, phase noise, is better if the VCO and reference inputs are operated with a phase
offset. Normally integer mode of operation is best with no phase offset. A phase offset is implemented by adding a
constant DC leakage to one of the charge pumps. DC leakage may be added to the UP or DN pumps using chp_
UPoffset_sel or chp_DNoffset_sel. These are 3 bit registers with 55µA LSB. Maximum offset is 385uA.
For best spectral performance in Fractional Mode the leakage current should be programmed to: Required Leakage
Current (uA) = (4E-9 + 4xTvco) x Fcomparison (Hz) x CP current (uA)
Charge Pump Operation Near the Rail
PLL - Fractional-N - SMT
0
Charge Pump Gain
It should be noted that the charge pump is a non-ideal device. Phase locked operation with the tuning voltage very
near the positive charge pump supply voltage or very near ground will degrade the phase noise performance of the
synthesizer. Exactly how close to the supply limits that one should operate is a question of margin needed for the
application in question and user judgement. Figure 3. gives some idea of the typical performance near the supply
limits. It should be noted that if operation is necessary very near the supply limits, for example less than 500mV
from the supply limit, then it is recommended to operate with a DC leakage that leaks in the direction of the supply.
For example, if the charge pump supply is 5.5V and locked operation is required with a VCO tune voltage of 5.2V,
then operating with UP leakage on the charge pump will improve operation in this region. Similarly if phase locked
operation is needed, with a VCO tune voltage of say 300mV, then operating with DN leakage is recommended.
As an example, if the main pump gain was set at 1mA, an offset of 385uA would represent a phase offset of about
(385/1000)*360 = 138degrees. Normally it is sufficient to offset the pump by just slightly larger than the delta sigma
excursions for best phase noise. Best spurious operation usually occurs with DN offset with non-inverting loop filters
and UP offset with inverting loop filters.
Figure 14. Charge Pump Gain & Offset Control
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0 - 12
HMC700LP4 / 700LP4E
v11.0411
8 GHz 16-Bit Fractional-N PLL
0
Fractional Mode
PLL - Fractional-N - SMT
Fractional Frequency Tuning
The HMC700LP4(E) synthesizer in fractional mode can achieve frequencies at fractional multiples of the reference.
The output frequency of the synthesizer is given by
(EQ 4)
Where
Nint
is the integer division ratio, an integer number between 36 and 65,567 (see intg Table 10)
Nfrac
is the fractional part, a number from 1 to 224 see frac Table 11
R
is the reference path division ratio, see rdiv Table 9
ƒxtal
is the frequency of the reference oscillator input
ƒPFD
is the PFD operating frequency ƒxtal R
/
As an Example
ƒxtal
= 50 MHz
R
=1
ƒPFD
= 50 MHz
Nint
= 45
Nfrac
=1
(EQ 5)
In this example the output frequency of 2,300,000,002.98 Hz is achieved by programming the 10 bit binary value of
46d =2Eh = 0000 0000 0010 1110 into intg in Table 13.
Similarly the 24 bit binary value of the fractional word is written into frac in Table 11,
16,777,215d = FFF FFFh = 1111 1111 1111 1111 1111 1111
1d = 000 001h = 0000 0000 0000 0000 0000 0001
Example 2: Set the output to 4.600 025 GHz using a 100 MHz reference, R=2.
Find the nearest integer value, Nint, Nint = 92, fint = 4.600 000 GHz
This leaves the fractional part to be ƒfrac =25 kHz
(EQ 6)
Since Nfrac must be an integer number, the actual fractional frequency will be 4,600,025,001.17Hz, an error of 1.17Hz
or 0.00025ppm.
Here we program the 16 bit Nint = 92d = 5Ch = 0000 0000 0101 1100 and
The 24 bit Nfrac = 8389d = 20C5h = 0000 0010 0000 1100 0101
In addition to the above frequency programming words, the fractional mode must be enabled by setting frac_rstb and
buff_rstb Table 13. Other DSM configuration registers should be set to the recommended register values.
0 - 13
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HMC700LP4 / 700LP4E
v11.0411
8 GHz 16-Bit Fractional-N PLL
The HMC700LP4(E) is capable of a simple binary Frequency Shift Keying (FSK) modulation. The internal modulation
is unshaped FSK. The loop bandwidth of the synthesizer must be fixed by the user to achieve symbol shaping as
required.
When the FSK mode of operation is enabled, via fsk_enable (Table 13), and SEN is held low, the synthesizer will
output binary FSK frequency hops in response to data input on the SDI pin. When SEN is set, the FSK modulation will
stop and return to f0. SCK must not be toggled when transmitting data in FSK mode.
FSK modulation is normally defined by a deviation, Δƒ, and a modulation rate, ƒm. The deviation is defined as the
difference between the frequency transmitted when input data is 0, ƒ0, and the frequency transmitted when the input
data is 1, ƒ1.
ƒo
is the frequency programmed in the frequency registers as was defined in (EQ 4),
that is:
(EQ 7)
ƒ1
is the fractional frequency achieved by adding the value in the seed register to the
value in the frac register, that is:
(EQ 8)
Where
Nint
is the integer division ratio, an integer number between 36 and 65,567 (see integer
register)
Nfrac
is the fractional part, a number from 1 to 224
Nseed
is the seed part, a number from 1 to 224
R
is the reference path division ratio
ƒref
is the frequency of the external reference input
0
PLL - Fractional-N - SMT
FSK Modulation
In this case the deviation Δf is given simply by
(EQ 9)
FSK data bits on SDI will be latched into the synthesizer on the falling edge of the divided reference rate, ƒPFD. If for
example R=1, and ƒref = 50 MHz, the input FSK data would be oversampled every 20nsec on the falling edge of the
input reference.
The ƒm rate of the FSK data is simply the inverse of twice the period of the data bits. For example, if the data bit period
is 1msec the fm rate is 500 Hz.
If an unshaped binary FSK is desired, the closed loop bandwidth of the synthesizer should be larger than the ƒm
rate by a sufficient margin. For practical FSK transmissions the ƒm rate is limited by the radio link budget, channel
spectral emission restrictions and practical closed loop bandwidths of the fractional synthesizer.
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0 - 14
HMC700LP4 / 700LP4E
v11.0411
8 GHz 16-Bit Fractional-N PLL
PLL - Fractional-N - SMT
0
Integer Mode
The HMC700LP4(E) synthesizer is capable of operating in integer mode. In integer mode the synthesizer step
size is fixed to that of the PFD frequency, fPFD. Integer mode typically has the lower phase noise for a given PFD
operating frequency, than fractional mode. The advantage is usually of the order of 4 to 6 dB. Integer mode, however, often requires a lower PFD frequency to meet step size requirements. The fractional mode advantage is that
higher PFD frequencies can be used, hence lower phase noise can often be realized in fractional mode.
Integer Frequency Tuning
In integer mode the digital Δ∑ modulator is shut off and the division ratio of the prescaler is set at a fixed value. To run
in integer mode clear frac_rstb and buffrstb Table 13. Then program the integer portion of the frequency as explained
by (EQ 4), ignoring the fractional part.
VCO Divider Register Buffering
The VCO divider registers inside the HMC700LP4E are not double buffered. As soon as either the integer (Reg 3)
or fractional (Reg 4) VCO divider register is programmed the new value takes effect. Under certain conditions, this
can present a momentary mis-load of the internal VCO divider which can take several milliseconds to clear. In time
sensitive frequency settling applications a specific programming sequence is required to avoid this delay. This delay
arises only when the upper 11 bits of the 16 bit VCO divider (Reg 3) are all changing state such that none of the bits
remain as a 1.
In time sensitive applications the following programming sequence should be used.
For Fractional Mode:
Write Register 5 = 0h (zero the Seed);
Write Register 4 = 0h (zero the Fractional divide value);
Write Register 3 to the ‘intermediate’ integer divide value;
Write Register 3 to the final integer divide value;
Write Register 5 = 50894Ch (or any other non-zero value);
Write Register 4 to the final fractional divide value;
For Integer Mode:
Write Register 3 to the ‘intermediate’ integer divide value;
Write Register 3 to the final integer divide value;
The ‘intermediate’ VCO Divider register value (Register 3) must have a ‘1’ in the upper 11 bits (lower 5 bits do not matter)
that does not change when going from the starting value to the intermediate value and then from the intermediate
value to the final value.
A simple algorithm to calculate a suitable interim value is to ‘OR’ the Register 3 Start value with the Register 3 Final
value. For example, if you are going from 74h to 80h the ‘OR’ed value would be F4h. This behaviour is not present on
other Hittite Microwave PLL devices.
Soft Reset and Power on Reset
The HMC700LP4(E) features a hardware Power on Reset (POR). All chip registers will be reset to default states
approximately 250us after power up. The SPI registers may also be soft reset by an SPI write to strobe register
rst_swrst (Table 7)
Power Down Mode
Chip Power Down is done by deasserting Chip Enable, CE, pin 23 (Low = Disabled). This will result in all analog
functions and internal clocks disabled. Current consumption will typically drop below 10µA in Power Down state.
During Power Down, the serial register writes will still operate, however, serial data output is disabled so Read
operations will not work.
It is possible to control Power Down Mode from the serial port register rst_chipen_from_spi by clearing rst_chipen_
pin_select (Table 8).
0 - 15
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HMC700LP4 / 700LP4E
v11.0411
8 GHz 16-Bit Fractional-N PLL
a. Digital Clocks
b. Internal bias reference sources
c. PFD block
d. Charge Pump Block
e. Reference Path buffer
f. VCO Path buffer
g. Digital I/O Test pads
Chip Identification
The version of the synthesizer is described in Table 6. Version information may be read from the synthesizer by
reading the content of chip_ID in Reg 00h.
SERIAL PORT
Typical serial port operation can be run with SCK at speeds up to 50MHz.
Serial Port WRITE Operation
Table 4. Timing Characteristics
Parameter
Conditions
Min
Typ
Max
Units
t1
SEN to SCK Setup Time
8
nsec
t2
SDI to SCK Setup Time
5
nsec
t3
SDI to SCK Setup Time
5
nsec
SCK period
20
nsec
tsck
t4
SCK High Duration
8
nsec
t5
SCK Low Duration
8
nsec
t6
SEN High Duration
640
nsec
t7
SEN Low Duration
20
nsec
PLL - Fractional-N - SMT
0
It is also possible to leave various blocks on when in Power Down (see Table 8), including:
A typical WRITE cycle is shown in Figure 15.
a. The Master (host) both asserts SEN (Serial Port Enable) and clears SDI to indicate a WRITE cycle,
followed by a rising edge of SCK.
b. The slave (synthesizer) reads SDI on the 1st rising edge of SCK after SEN. SDI low initiates the Write
cycle (/WR).
c. Host places the six address bits on the next six falling edges of SCK, MSB first.
d. Slave registers the address bits in the next six rising edges of SCK (2-7).
e. Host places the 24 data bits on the next 24 falling edges of SCK, MSB first .
f. Slave registers the data bits on the next 24 rising edges of SCK (8-31).
g. SEN is de-asserted on the 32nd falling edge of SCK.
h. The 32nd falling edge of SCK completes the cycle.
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0 - 16
HMC700LP4 / 700LP4E
v11.0411
8 GHz 16-Bit Fractional-N PLL
PLL - Fractional-N - SMT
0
Figure 15. Serial Port Timing Diagram - Write Serial Port WRITE Operation
Serial Port READ Operation
A typical READ cycle is shown in Figure 16.
a. The Master (host) asserts both SEN (Serial Port Enable) and SDI to indicate a READ cycle, followed
by a rising edge SCK. Note: The Lock Detect function is multiplexed onto the LD_SDO pin. It is
suggested that lock detect (LD) only be considered valid when SEN is low. In fact LD will not toggle
until the first active data bit toggles on LD_SDO, and will be restored immediately after the trailing
edge of the LSB of serial data out as shown in Figure 15.
b. The slave (synthesizer) reads SDI on the 1st rising edge of SCK after SEN. SDI high initiates the
READ cycle (RD).
c. Host places the six address bits on the next six falling edges of SCK, MSB first.
d. Slave registers the address bits on the next six rising edges of SCK (2-7).
e. Slave switches from Lock Detect and places the requested 24 data bits on SD_LDO on the next 24
rising edges of SCK (8-31), MSB first .
f. Host registers the data bits on the next 24 falling edges of SCK (8-31).
g. Slave restores Lock Detect on the 32nd rising edge of SCK.
h. SEN is de-asserted on the 32nd falling edge of SCK.
i. The 32nd falling edge of SCK completes the READ cycle.
Figure 16. Serial Port Timing Diagram - READ Serial Port Operation
0 - 17
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HMC700LP4 / 700LP4E
v11.0411
8 GHz 16-Bit Fractional-N PLL
The HMC700LP4(E) also supports a simple two pin GPO bus implemented on pins D1 and D0. GPO operation
requires that GPO output pads be enabled via gpio_pads_en (Table 15). Two bit arbitrary data may be written to the
GPO outputs via register gpo_test, when gpo_select is first set to 10d (Table 20). Other test waveforms, described
in Table 20, may be output to the GPO pins according to the value written to gpo_select. If the GPO outputs are not
used, and it is desirable that they are as quiet as possible then the GPO pads should be disabled via gpio_pads_en
(Table 15) and gpo_select set to a value that has a static source, such as 10d.
Register Map
Note: For Read Operations from register 00h, it is Read Only containing the chip ID. Current Hittite synthesizer chip
IDs are shown in Table 6.
Table 6. Reg00h ID (Read Only) Register
Bit
[23:0]
Name
chip_ID
Width
24
Default
Description
478708h
Part Number, Description HMC700LP4, 16-Bit 5.5V
or 485901
For write operations to register 00h, it is a Write Only strobe register as defined in Table 7.
Table 7. Reg00h RST Strobe Register
Bit
[0]
Name
rst_swrst
Width
1
Default
Description
n/a
Strobe (WRITE ONLY) generates soft reset. Resets all digital and registers to
default states.
PLL - Fractional-N - SMT
0
General Purpose Output (GPO) Pins
Table 8. Reg 01h RST Register
Bit
[0]
Name
rst_chipen_pin_select
Width
1
Default
Description
1
1 = Chip enable via CE pin, CE (Pin 23) enables chip. CE low puts chip in power
down.
0 = Chip enable via SPI (rst_chipen_from_spi), CE Pin is ignored
[1]
rst_chipen_from_spi
1
0
1= Chip Enable when rst_chipen_pin_select = 0
0= Power Down when rst_chipen_pin_select = 0
see Power Down Mode description and csp_enable Reg07
If rst_chipen_pin_select =1 this register is ignored
[2]
rst_chipen_digclks_keep_on
1
0
keeps digital clocks on when chip is Power Down from any source
[3]
rst_chipen_bias_keep_on
1
0
keeps chip internal bias generators on when chip is Power Down from any source
[4]
rst_chipen_pfd_keep_on
1
0
keeps internal PFD block on when chip is Power Down from any source
[5]
rst_chipen_chp_keep_on
1
0
keeps internal Charge Pump block on when chip is Power Down from any source
[6]
rst_chipen_refbuf_keep_on
1
0
keeps reference path buffer on when chip is Power Down from any source
[7]
rst_chipen_vcobuf_keep_on
1
0
keeps VCO path RF buffer on when chip is Power Down from any source
[8]
rst_chipen_dig_io_keep_on
1
0
keeps digital IO pins on when chip is Power Down from any source
[9]
rst_chipen_rdiv_fe_sync
1
0
Tri-states the PFD on the next falling edge of the ref clock and also puts the chip
to sleep
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0 - 18
HMC700LP4 / 700LP4E
v11.0411
8 GHz 16-Bit Fractional-N PLL
0
Table 9. Reg 02h REFDIV Register
PLL - Fractional-N - SMT
Bit
Name
Width
Default
Description
1
Reference Divider ’R’ Value (EQ 4)
00h - illegal
01h - divide-by-1 (bypass)
10h - divide-by-2
11h - divide-by-3 etc
...
3FFFh - divide-by-16, 383
The reference divider is controlled by several bits in register 8. See register 8 description
for details.
[13:0]
rdiv
14
Bit
Name
Width
Default
Description
[15:0]
intg
16
C8h
VCO Divider Integer part, used in all modes, see (EQ 4)
Table 10. Reg 03h Frequency Register - Integer Part
Fractional Mode
min 36d
max 2ˆ16 -1 = 65,535d
Integer Mode
min 32d
max 2ˆ16+31 = 65,567d
Table 11. Reg 04h Frequency - Fractional Part Register
Bit
Name
Width
Default
Description
[23:0]
frac
24
0
VCO Divider Fractional part (24 bit unsigned) see section
Fractional Frequency Tuning
Used in Fractional Mode only
min 0d
max 2^24-1
Table 12. Reg 05h SD Seed Register
Bit
Name
Width
Default
[23:0]
seed
24
0
Description
Fractional Mode: Seeds fractional modulator
FSK Mode: Sets f1 in FSK mode when fsk_enable=1 (see section FSK Modulation)
0 - 19
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HMC700LP4 / 700LP4E
v11.0411
8 GHz 16-Bit Fractional-N PLL
Table 13. Reg 06h SD CFG Register
Name
Width
reserved
Default
Description
87h
[9:8]
order
2
2h
Select the Modulator Type
0 - not used
1 - not used
2 - Type B
3 - Type A
[10]
frac_rstb
1
1
0 holds the frac core in reset
reset is used for integer mode or integer mode with CSP
[11]
buff_rstb
1
1
0 holds the frac core buffers in reset
reset is used with frac_rstb=0 for integer mode, no CSP
[12]
bypass_mode
1
0
1 fractional modulator output is ignored, but fractional modulator
continues to be clocked, used to test the isolation of the
digital fractional modulator from the VCO output in integer
mode
[13]
autoseed_mode
1
1
loads the seed whenever the frac register is written
[14]
reserved
1
0
Must be kept at 0
enables the FSK mode of operation and FSK input on SDI
pin, (see section FSK Modulation)
[15]
fsk_enable
1
0
[16]
reserved
1
0
[17]
clkrq_refdiv_sel
1
0
selects the SD clock source
1 = reference divider clock
0 = VCO divider clock (recommended)
[18]
clkrq_invert_clk
1
1
inverts the selected sd clock
[19]
sd_spare_out
1
0
spare
8h
CSP magnitude correction (see section Cycle Slip Prevention (CSP))
0000 low magnitude
1111 high magnitude
sign of the correction is determined automatically by the CSP state machine
[23:20]
csp_corr_magn
4
PLL - Fractional-N - SMT
Bit
[7:0]
0
Note: To Enable Frac Mode:
Set Reg 6 [12:10]= 011
Also, Reg 9[9:7] or Reg 9[4:2] must be adjusted to mitigate spurs in frac mode (Dn or Up Leakage)
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0 - 20
HMC700LP4 / 700LP4E
v11.0411
8 GHz 16-Bit Fractional-N PLL
0
Table 14. Reg 07h LKD/CSP Register
PLL - Fractional-N - SMT
Bit
Name
Width
Default
Description
lock detect window
[9:0]
wincnt_max
10
250
[10]
lkd_enable
1
1
[11]
lkd_winasym_enable
1
0
[12]
lkd_win_asym_up_sel
1
0
1 selects lead window when lkd_winasym_enable=1
0 selects lag window when lkd_winasym_enable=1
[13]
ringosc_oneshot_sel
1
0
1 ring osc based one shot for lock detection mode
0 nominal 20nsec analog one shot for lock detection mode
[16:14]
oneshot_duration
3
0
duration of the ringosc based oneshot pulse in lock detection mode
[18:17]
ringosc_cfg
2
0
Lock Detect ringosc frequency trim
“00” fastest “11” slowest
[19]
ringosc_mode
1
0
force ringosc ON
[20]
csp_enable
1
1
cycle slip prevention (CSP) enable
sets the number of consecutive counts of divided VCO that must land inside the
Lock Detect Window to declare LOCK
enables internal lock detect function, Note output to Lock Detect Flag on LD_
SDO as per Figure 13 controlled by pfd_LD_opEn, Reg 0Bh PFD Register
asymmetrical window
enables lock detect window to only lag or only lead the
divided reference signal at the PFD, see Figure 9
See section PFD Lock Detect for more information about this register.
Table 15. Reg 08h Analog EN Register
Bit
Width
Default
[0]
bias_en
Name
1
1
enables main chip bias reference
Description
[1]
cp_en
1
1
charge pump enable
[2]
pfd_en
1
1
pfd enable
[3]
refbuf_en
1
reference path buffer enable. Set to 1 for normal operation.
[4]
vcobuf_en
1
1
vco path RF buffer enable
[5]
gpio_pads_en
1
1
gpio pads enable, Pins D0 and D1
required for use of GPO port or VCO Serial Port
[6]
sdo_pad_en
1
1
LD_SDO pad driver enable (Pin 5)
required for use of Lock Detect, Serial Port Read Operation
or VCO Serial Port operation
[7]
vcodiv_digclk_en
1
1
vco divider output clk to digital enable
[8]
vcodiv_en
1
1
enable vco divider
[9]
reserved
1
0
[10]
vcodiv_dutycyc_mode
1
0
vcodiv duty cycle mode
stretches the VCO divider output when N>32
[11]
reserved
1
0
Set to 0 for normal operation
[12]
rdiv_ref_to_dig_en
1
1
reference input applied to digital when set to 1, non-divided reference signal is
fed to digital (required for normal operation)
[13]
rdiv_refdiv_to_dig_en
1
1
reference divider applied to digital, when set to 1, divided reference signal is fed
to digital (required for normal operation)
Charge Pump control register. see Figure 14
0 - 21
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One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106
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HMC700LP4 / 700LP4E
v11.0411
8 GHz 16-Bit Fractional-N PLL
0
Table 16. Reg 09h CP Register
[1:0]
Name
Reserved set them to 0
Width
Default
2
0
[4:2]
cp_UPoffset_sel
3
0
[6:5]
Reserved Set them to 0
2
0
[9:7]
cp_DNoffset_sel
3
0
Description
Charge Pump UP Offset Control 55uA/step
000 = 0uA
001 = 55uA
010 = 110uA
...
111 = 385uA
Charge Pump DN Offset Control 55uA/step
000 = 0uA
001 = 55uA
010 = 110uA
...
111 = 385uA
Charge Pump UP Current Trim 7uA/step
[13:10]
cfg cp_UPtrim_sel
4
0
0000 = 0uA
0001 = 7uA
0010 = 14uA
0100 = 28uA
1000 = 56uA
1111 = 105uA
Charge Pump DN Current Trim 7uA/step
[17:14]
cp_DNtrim_sel
4
0
0000 = 0uA
0001 = 7uA
0010 = 14uA
0100 = 28uA
1000 = 56uA
1111 = 105uA
PLL - Fractional-N - SMT
Bit
Charge Pump UP MAIN Current Control 500uA step
[20:18]
cp_UPcurrent_sel
3
0
000 tristate if PFD also disabled
001 500uA
010 1000uA
011 1500uA
100 2000uA
101 2000uA
110 2000uA
111 2000uA
Charge Pump UP MAIN Current Control 500uA step
[23:21]
cp_DNcurrent_sel
3
0
000 tristate if PFD also disabled
001 500uA
010 1000uA
011 1500uA
100 2000uA
101 2000uA
110 2000uA
111 2000uA
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0 - 22
HMC700LP4 / 700LP4E
v11.0411
8 GHz 16-Bit Fractional-N PLL
0
Table 17. Reg 0Ah CP Op Amp Register
PLL - Fractional-N - SMT
Bit
Name
Width
Default
Description
Charge Pump Internal Op-Amp bias select
[1:0]
cp_opamp_bias_sel
2
0
00 - 540 µA
01 - 689 µA
10 - 943 µA
11 - 1503 µA
Enabled with Chg Pump enable
Note: this circuit affects internal charge pump operation and linearity. Default
setting is recommended. Enabled with Reg08h[1] cp_en
Table 18. Reg 0Bh PFD Register
Bit
Name
Width
Default
Description
pfd_del_sel
3
0
sets PFD reset path delay. Recommended value 010
When in Integer mode, Reg B Bits [2:0] should not be 000 because it doesn’t
ensure sufficient ‘on’ time for the CP at 50MHz. This isn’t an issue in Fractional
Mode;
[3]
pfd_phase_sel
1
0
Swaps the PFD inputs
1 negative VCO tuning slope
0 positive VCO tuning slope
[4]
pfd_up_en
1
1
enables the PFD UP output according to state of
pfd_mute_when_locked_enable, see Reg0B
[5]
pfd_dn_en
1
1
enables the PFD DN output according to state of
pfd_mute_when_locked_enable, see Reg0B
[2:0]
[6]
pfd_LD_opEn
1
1
pfd Lock Detect Output Enable, enables Lock Detect flag output to LD_SDO pin
[7]
pfd_pullup_ctrl
1
0
Forces PFD UP output on
[8]
pfd_puldn_ctrl
1
0
Forces PFD DN output on
1: if set:
[9]
pfd_mute_when_locked_
enable
1
0
when locked disables UP if pfd_up_en=0
when locked disables DN if pfd_dn_en=0
when NOT locked, allows both UP and DN to be active and ignores pdf_up_en
and pfd_dn_en
0: if clear, pfd_dn_en and pfd_up_en enable UP and DN
outputs at all times
[10]
spare0
1
0
reserved
[11]
spare1
1
1
reserved
Table 19. Reg 0Ch VCO SPI Register
Bit
[9:0]
0 - 23
Name
vcospi_vco_data
Width
10
Default
0
Description
data register contents, when written automatically outputs
this data via VCO SPI when to_gpo_sdo=1 Reg09
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One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106
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HMC700LP4 / 700LP4E
v11.0411
8 GHz 16-Bit Fractional-N PLL
Table 20. Reg 0Dh GPO_SPI_RDIV Register
Name
Width
Default
Description
Test signals selected here are output to gpo pins when
gpo_pads_en=1 (Table 15)
D1 & D0
0: clk_vcodiv & clk_refdiv
1: pfd_up & pfd_dn
2: refOut & refDivOut
3: seed_stb_sypulse_test & frac_stb_sypulse_test
4: intg_inbuff_enable_test & clk_sd
5: oneshot_trigg_test & oneshot_pulse_test
6: ‘0’ & ringosc_test
7: csp_corr_add & csp_corr_sub
8: pfd_sat_refdiv & pfd_sat_vcodiv
9: (csp_corr_add or csp_corr_sub) & pfd_sat_rstb
10: gpo_test , see Reg0D
11: not used
12: not used
13: not used
14: not used
15: not used
[3:0]
gpo_select
4
10d
[5:4]
gpo_test
2
0
data written to this register is output to D0 and D1 pins when gpo_select = 10d
[6]
refclkdiv4
1
0
1: sel ref divby4 for clocking the vco_spi
0: sel ref divby1 for clocking the vco_spi
[7]
to_gpo_sdo
1
0
enable the automatic output of vcospi_vco_data to LD_SDO
Output VCO_SPI clock to D1 (see Reg0D)
Output VCO_SPI EN to D0
PLL - Fractional-N - SMT
Bit
0
Table 21. Reg 0Fh LD State Register (Read Only)
Bit
[0]
Name
locked
Width
Default
1
0
Description
Read only Lock Detect flag, 1 when locked
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0 - 24
HMC700LP4 / 700LP4E
v11.0411
8 GHz 16-Bit Fractional-N PLL
PLL - Fractional-N - SMT
0
0 - 25
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HMC700LP4 / 700LP4E
v11.0411
8 GHz 16-Bit Fractional-N PLL
0
PLL - Fractional-N - SMT
Outline Drawing
NOTES:
1. LEADFRAME MATERIAL: COPPER ALLOY
2. DIMENSIONS ARE IN INCHES [MILLIMETERS].
3. LEAD SPACING TOLERANCE IS NON-CUMULATIVE
4. PAD BURR LENGTH SHALL BE 0.15mm MAXIMUM.
PAD BURR HEIGHT SHALL BE 0.05mm MAXIMUM.
5. PACKAGE WARP SHALL NOT EXCEED 0.05mm.
6. ALL GROUND LEADS AND GROUND PADDLE MUST
BE SOLDERED TO PCB RF GROUND.
7. REFER TO HITTITE APPLICATION NOTE FOR SUGGESTED
PCB LAND PATTERN.
Package Information
Part Number
Package Body Material
Lead Finish
MSL Rating
HMC700LP4
Low Stress Injection Molded Plastic
Sn/Pb Solder
MSL1
[1]
HMC700LP4(E)
RoHS-compliant Low Stress Injection Molded Plastic
100% matte Sn
MSL1
[2]
Package Marking [3]
H700
XXXX
H700
XXXX
[1] Max peak reflow temperature of 235 °C
[2] Max peak reflow temperature of 260 °C
[3] 4-Digit lot number XXXX
Evaluation PCB
Please reference HMC700LP4 Product Note for information on Evaluation PCB kit and List of Materials.
Information furnished by Analog Devices is believed to be accurate and reliable. However, no
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