Si 5 9 8 / S i 5 99
1 0 – 8 1 0 M H Z I 2C P R O G R A M M A B L E X O / V C X O
Features
I2C programmable output
frequencies from 10 to 810 MHz
0.5 ps RMS phase jitter
Superior power supply rejection:
0.3–0.4 ps additive jitter
Available LVPECL, CMOS, LVDS,
and CML outputs
1.8, 2.5, or 3.3 V supply
Pin- and register-compatible with
Si570/571
Programmable with 28 parts per
trillion frequency resolution
Integrated crystal provides stability
and low phase noise
Frequency changes up to
±3500 ppm are glitchless
–40 to 85 °C operation
Industry-standard 5x7 mm package
Applications
Si5602
Ordering Information:
SONET / SDH / xDSL
Ethernet / Fibre Channel
3G SDI / HD SDI
Multi-rate PLLs
Multi-rate reference clocks
See page 21.
Frequency margining
Digital PLLs
CPU / FPGA FIFO control
Adaptive synchronization
Agile RF local oscillators
Pin Assignments:
See page 20.
Description
(Top View)
The Si598 XO/Si599 VCXO utilizes Skyworks Solutions' advanced DSPLL®
circuitry to provide a low-jitter clock at any frequency. They are userprogrammable to any output frequency from 10 to 810 MHz with 28 parts per
trillion (PPT) resolution. The device is programmed via a 2-pin I2C compatible
serial interface. The wide frequency range and ultra-fine programming resolution
make these devices ideal for applications that require in-circuit dynamic frequency
adjustments or multi-rate operation with non-integer related rates. Using an
integrated crystal, these devices provide stable low jitter frequency synthesis and
replace multiple XOs, clock generators, and DAC controlled VCXOs.
SDA
7
NC
1
6
VDD
OE
2
5
CLK–
GND
3
4
CLK+
8
Functional Block Diagram
SCL
Si598
VDD
OE
Power Supply Filtering
SDA
Fixed
Frequency
Oscillator
Vc
(Si599)
CLK+
Any Frequency
DSPLL®
10 to 810 MHz
Clock Synthesis
ADC
CLK–
7
VC
1
6
VDD
OE
2
5
CLK–
GND
3
4
CLK+
I2C Interface
SDA
SCL
8
GND
SCL
Si599
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TA B L E O F C O N T E N T S
Section
Page
1. Detailed Block Diagrams . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3
2. Electrical Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4
3. Functional Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11
3.1. Programming a New Output Frequency . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11
3.2. I2C Interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
4. Serial Port Registers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14
5. Si598 (XO) Pin Descriptions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19
6. Si599 (VCXO) Pin Descriptions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20
7. Ordering Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21
8. Si59x Mark Specification . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .23
9. Outline Diagram and Suggested Pad Layout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24
10. 8-Pin PCB Land Pattern . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25
Revision History . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26
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1. Detailed Block Diagrams
VDD
GND
fXTAL
M
DCO
fosc
÷HS_DIV
CLKOUT+
÷N1
CLKOUT–
RFREQ
OE
SDA
SCL
Control
Interface
NVM
RAM
Figure 1. Si598 Detailed Block Diagram
VDD
GND
fXTAL
VC
ADC
VCADC
M
+
DCO
fosc
÷HS_DIV
÷N1
CLKOUT+
CLKOUT–
RFREQ
OE
SDA
SCL
Control
Interface
NVM
RAM
Figure 2. Si599 Detailed Block Diagram
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2. Electrical Specifications
Table 1. Recommended Operating Conditions
Parameter
Supply Voltage
Symbol
1
VDD
Supply Current
IDD
2
Output Enable (OE) ,
Serial Data (SDA),
Serial Clock (SCL)
Operating Temperature Range
Test Condition
Min
Typ
Max
Units
3.3 V option
2.97
3.3
3.63
V
2.5 V option
2.25
2.5
2.75
V
1.8 V option
1.71
1.8
1.89
V
Output enabled
LVPECL
CML
LVDS
CMOS
—
—
—
—
120
108
99
90
130
120
110
100
mA
mA
mA
mA
Tristate mode
—
60
75
mA
VIH
0.75 x VDD
—
—
V
VIL
—
—
0.5
V
–40
—
85
ºC
TA
Notes:
1. Selectable parameter specified by part number. See Section 7. Ordering Information on page 21 for further details.
2. OE pin includes a 17 k pullup resistor to VDD for OE Active High Option. OE pin includes 17 kpull down for OE
Active Low. See Section “7.Ordering Information”.
Table 2. VC Control Voltage Input (Si599)
(Typical values TA = 25 ºC, VDD = 3.3 V, min/max limits VDD = 1.8 ±5%, 2.5 or 3.3 V ±10%, TA = –40 to 85 ºC unless otherwise
noted)
Parameter
Control Voltage Tuning
Slope1,2,3
Control Voltage Linearity4
Symbol
Test Condition
Min
Typ
Max
Units
KV
10 to 90% of VDD
—
—
—
—
—
45
95
125
185
380
—
—
—
—
—
ppm/V
ppm/V
ppm/V
ppm/V
ppm/V
LVC
BSL
–5
±1
+5
%
Incremental
–10
±5
+10
%
Modulation Bandwidth
BW
9.3
10.0
10.7
kHz
VC Input Impedance
ZVC
500
—
—
k
VC Input Capacitance
CVC
—
50
—
pF
—
VDD/2
—
V
0
—
VDD
V
Nominal Control Voltage
Control Voltage Tuning Range
VCNOM
VC
@ fO
Notes:
1. Positive slope; selectable option by part number. See 7. Ordering Information on page 21.
2. For best jitter and phase noise performance, always choose the smallest KV that meets the application’s minimum APR
requirements. See “AN266: VCXO Tuning Slope (KV), Stability, and Absolute Pull Range (APR)” for more information.
3. KV variation is ±10% of typical values.
4. BSL determined from deviation from best straight line fit with VC ranging from 10 to 90% of VDD. Incremental slope
determined with VC ranging from 10 to 90% of VDD.
4
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Table 3. CLK± Output Frequency Characteristics
(Typical values TA = 25 ºC, VDD= 3.3 V, min/max limits VDD = 1.8 ±5%, 2.5 or 3.3 V ±10%, TA = –40 to 85 ºC unless otherwise
noted)
Parameter
Programmable Frequency
Range1,2,3
Symbol
fO
1,2,4,5
Total Stability (Si598)
Temperature Stability (Si599)1,5
Test Condition
Min
Typ
Max
Units
LVPECL/LVDS/CML
10
—
810
MHz
CMOS
10
—
160
MHz
Temp stability = ±20 ppm
—
—
±30
ppm
Temp stability = ±25 ppm
—
—
±50
ppm
Temp stability = ±50 ppm
—
—
±100
ppm
TA = –40 to +85 ºC
–20
–50
—
—
+20
+50
ppm
Absolute Pull Range1,5 (Si599)
APR
±10
—
±370
ppm
Powerup Time6
tOSC
—
—
10
ms
Notes:
1. See Section 7. Ordering Information on page 21 for further details.
2. Specified at time of order by part number. Three frequency grades are available:
Grade A covers 10 to 810 MHz.
Grade B covers 10 to 280 MHz.
Grade C covers 10 to 160 MHz.
3. Nominal output frequency set by VCNOM = 1/2 x VDD.
4. Includes initial accuracy, temperature drift, shock, vibration, power supply and load drift. ±100 ppm and ±50 ppm
options include 15 years aging at 70 °C. ±30 ppm option includes 10 years aging at 40 °C.
5. Selectable parameter specified by part number. See 7. Ordering Information on page 21.
6. Time from power up or tristate mode to fO.
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Table 4. CLK± Output Levels and Symmetry
(Typical values TA = 25 ºC, VDD = 3.3 V, min/max limits VDD = 1.8 ±5%, 2.5 or 3.3 V ±10%, TA = –40 to 85 ºC unless otherwise
noted)
Parameter
LVPECL Output Option1
LVDS Output Option2
Symbol
Test Condition
Min
Typ
Max
Units
VO
mid-level
VDD – 1.42
—
VDD – 1.25
V
VOD
swing (diff)
1.1
—
1.9
VPP
VSE
swing (single-ended)
0.55
—
0.95
VPP
VO
mid-level
1.125
1.20
1.275
V
VOD
swing (diff)
0.5
0.7
0.9
VPP
2.5/3.3 V option mid-level
—
VDD – 1.30
—
V
1.8 V option mid-level
—
VDD – 0.36
—
V
2.5/3.3 V option swing (diff)
1.10
1.50
1.90
VPP
1.8 V option swing (diff)
0.35
0.425
0.50
VPP
VOH
IOH = 32 mA
0.8 x VDD
—
VDD
V
VOL
IOL = 32 mA
—
—
0.4
V
LVPECL/LVDS/CML
—
—
350
ps
CMOS with CL = 15 pF
—
1
—
ns
48
—
52
%
VO
CML Output Option2
VOD
CMOS Output Option3
Rise/Fall Time (20/80 %)
tR, tF
Symmetry (duty cycle)
SYM
LVPECL:
LVDS:
CMOS:
VDD – 1.3 V (diff)
1.25 V (diff)
VDD/2
Notes:
1. 50 to VDD – 2.0 V.
2. Rterm = 100 (differential).
3. CL = 15 pF sinking or sourcing 12 mA for VDD = 3.3 V, 6 mA for VDD = 2.5 V, 3 mA for VDD = 1.8 V.
6
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Table 5. CLK± Output Phase Jitter (Si598)
(Typical values TA = 25 ºC, VDD = 3.3 V, min/max limits VDD = 1.8 ±5%, 2.5 or 3.3 V ±10%, TA = –40 to 85 ºC unless otherwise
noted)
Parameter
Symbol
Phase Jitter (RMS Random)
12 kHz to 20 MHz Integration Bandwidth
Phase Jitter (RMS Random)
1.875 to 20 MHz Integration Bandwidth
φJ-RANDOM
Phase Jitter (RMS)
12 kHz to 20 MHz Integration Bandwidth
φJ
Phase Jitter (RMS)
1.875 to 20 MHz Integration Bandwidth
Test Condition
Min
Typ
Max
Units
LVPECL/LVDS/CML1
—
0.5
—
ps
CMOS 3.3 V2
—
0.6
—
ps
LVPECL/LVDS/CML1
—
0.3
—
ps
CMOS 3.3 V2
—
0.5
—
ps
LVPECL/LVDS/CML1
—
0.5
1
ps
CMOS 3.3 V2
—
0.6
1
ps
LVPECL/LVDS/CML1
—
0.5
—
ps
CMOS 3.3 V2
—
0.5
—
ps
Notes:
1. 50 to 810 MHz, 3.3 V/2.5 V only.
2. 50 to 160 MHz, single-ended CMOS output phase jitter measured using 33 series termination into 50 phase noise
test equipment. 3.3 V supply voltage option only.
Table 6. CLK± Output Phase Jitter (Si599)
(Typical values TA = 25 ºC, VDD = 3.3 V, min/max limits VDD = 1.8 ±5%, 2.5 or 3.3 V ±10%, TA = –40 to 85 ºC unless otherwise
noted)
Parameter
1,2
Phase Jitter (RMS)
for FOUT of 50 MHz < FOUT
810 MHz
Symbol
J
Test Condition
Min
Typ
Max
Kv = 45 ppm/V
12 kHz to 20 MHz
—
0.5
—
Kv = 95 ppm/V
12 kHz to 20 MHz
—
0.5
—
Kv = 125 ppm/V
12 kHz to 20 MHz
—
0.5
—
Kv = 185 ppm/V
12 kHz to 20 MHz
—
0.5
—
Kv = 380 ppm/V
12 kHz to 20 MHz
—
0.7
—
Units
ps
ps
ps
ps
ps
Notes:
1. Differential Modes: LVPECL/LVDS/CML.
2. For best jitter and phase noise performance, always choose the smallest KV that meets the application’s minimum APR
requirements. See “AN266: VCXO Tuning Slope (KV), Stability, and Absolute Pull Range (APR)” for more information.
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Table 7. CLK± Output Period Jitter
(Typical values TA = 25 ºC, VDD = 3.3 V unless otherwise noted)
Parameter
Symbol
JPER
Period Jitter*
Test Condition
Min
Typ
Max
Units
RMS
—
3
—
ps
Peak-to-Peak
—
35
—
ps
*Note: Any output mode, including CMOS, LVPECL, LVDS, CML. N = 1000 cycles.
Table 8. CLK± Output Phase Noise (Typical, Si599)
(Typical values TA = 25 ºC, VDD = 3.3 V)
Offset Frequency
74.25 MHz
148.5 MHz
155.52 MHz
185 ppm/V
185 ppm/V
95 ppm/V
LVPECL
LVPECL
LVPECL
–77
–101
–121
–134
–149
–151
–150
–68
–95
–116
–128
–144
–147
–148
–77
–101
–119
–127
–144
–147
–148
100 Hz
1 kHz
10 kHz
100 kHz
1 MHz
10 MHz
20 MHz
Units
dBc/Hz
dBc/Hz
dBc/Hz
dBc/Hz
dBc/Hz
dBc/Hz
dBc/Hz
Table 9. Power Supply Noise Rejection
(Typical values TA = 25 ºC, VDD = 3.3 V)
Parameter
Symbol
RMS Additive Jitter due to Power Supply Noise*
φPSRR
Test Condition
Min
Typ
Max
Units
100 kHz
—
0.32
—
ps
300 kHz
—
0.36
—
ps
700 kHz
—
0.36
—
ps
1 MHz
—
0.32
—
ps
*Note: Measured with 100 mVp-p sinusoid applied to power supply pin. VDD = 3.3 V, LVPECL.
Table 10. Spurious Performance
(Typical values TA = 25 ºC, VDD = 3.3 V)
Parameter
Spurious Free Dynamic Range
Symbol
SFDR
Test Condition
Min
Typ
Max Units
LVPECL, LVDS, CML1
—
75
—
dB
LVPECL, LVDS, CML2
—
64
—
dB
CMOS1
—
77
—
dB
Notes:
1. 10 to 160 MHz.
2. 10 to 810 MHz.
8
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Table 11. Environmental Compliance
The Si598/599 meets the following qualification test requirements.
Parameter
Conditions/Test Method
Mechanical Shock
MIL-STD-883, Method 2002
Mechanical Vibration
MIL-STD-883, Method 2007
Solderability
MIL-STD-883, Method 2003
Gross & Fine Leak
MIL-STD-883, Method 1014
Resistance to Solder Heat
MIL-STD-883, Method 2036
Moisture Sensitivity Level
J-STD-020, MSL1
Contact Pads
Gold over Nickel
Table 12. Programming Constraints and Timing
(Typical values TA = 25 ºC, VDD = 3.3 V, min/max limits VDD = 1.8 ±5%, 2.5 or 3.3 V ±10%, TA = –40 to 85 ºC unless
otherwise noted)
Parameter
Symbol
Test Condition
Min
Typ
Max
Unit
Output Frequency Range
CKOF
10
—
810
MHz
Frequency Reprogramming
Resolution
MRES
—
28
—
ppt
Internal Oscillator Frequency
fOSC
4850
—
5670
MHz
Internal Crystal Frequency
Accuracy
fXTAL
Maximum variation is
±2000 ppm
—
39.17
—
MHz
From center frequency
–3500
—
+3500
ppm
10
ms
Delta Frequency for
Continuous Output
Unfreeze to NewFreq
Timeout*
Settling Time for Small
Frequency Change
±3500 ppm from
center frequency after
setting NewFreq bit
—
—
10
ms
*Note: Applies when using large frequency change procedure outlined in section “3.1.2.Reconfiguring the Output Clock for
Large Changes in Output Frequency”.
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Table 13. Thermal Characteristics
(Typical values TA = 25 ºC, VDD = 3.3 V)
Parameter
Symbol
Test Condition
Min
Typ
Max
Unit
Thermal Resistance Junction to Ambient
JA
Still Air
—
84.6
—
°C/W
Thermal Resistance Junction to Case
JC
Still Air
—
38.8
—
°C/W
Ambient Temperature
TA
–40
—
85
°C
Junction Temperature
TJ
—
—
125
°C
Table 14. Absolute Maximum Ratings
Parameter
Symbol
Rating
Units
Supply Voltage, 1.8 V Option
VDD
–0.5 to +1.9
V
Supply Voltage, 2.5/3.3 V Option
VDD
–0.5 to +3.8
V
Input Voltage
VI
–0.5 to VDD + 0.3
V
Storage Temperature
TS
–55 to +125
ºC
ESD Sensitivity (HBM, per JESD22-A114)
ESD
2000
V
Soldering Temperature (lead-free profile)
TPEAK
260
ºC
tP
20–40
seconds
Soldering Temperature Time @ TPEAK (lead-free profile)
Notes:
1. Stresses beyond the absolute maximum ratings may cause permanent damage to the device. Functional operation or
specification compliance is not implied at these conditions.
2. The device is compliant with JEDEC J-STD-020C. Refer to Si5xx Packaging FAQ available at
https://www.skyworksinc.com/Product_Certificate.aspx for further information, including soldering profiles.
10
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3. Functional Description
The Si598 XO and the Si599 VCXO are low-jitter
oscillators ideally suited for applications requiring
programmable frequencies. The Si59x can be
programmed to generate any output clock in the range
of 10 to 810 MHz with frequency resolution of 30 parts
per trillion. Output jitter performance exceeds the strict
requirements of high-speed communication systems
including OC-48/STM-16, 3G SDI, and Gigabit
Ethernet.
The Si59x consists of a digitally-controlled oscillator
(DCO) based on Skyworks Solutions' third-generation
DSPLL technology, which is driven by an internal fixedfrequency crystal reference.
The device's default output frequency is set at the
factory and can be reprogrammed through the two-wire
I2C serial port. Once the device is powered down, it will
return to its factory-set default output frequency.
The Si599 has a pullable output frequency using the
voltage control input pin. This makes the Si599 an ideal
choice for high-performance, low-jitter, phase-locked
loops. The Si598 is digitally pullable using the I2C
interface and is ideal for digital PLL applications.
3.1. Programming a New Output Frequency
The output frequency (fout) is determined by
programming the DCO frequency (fDCO) and the
device's output dividers (HS_DIV, N1). The output
frequency is calculated using the following equation:
f XTAL RFREQ
f DCO
- = -----------------------------------------f out = ---------------------------------------HSDIV N1
Output Dividers
The DCO frequency is adjustable in the range of 4.85 to
5.67 GHz by setting the high-resolution 38-bit fractional
multiplier (RFREQ). The DCO frequency is the product
of the internal fixed-frequency crystal (fXTAL) and
RFREQ.
The 38-bit resolution of RFREQ allows the DCO
frequency to have a programmable frequency resolution
of 28 ppt.
As shown in Figure 3, the device allows reprogramming
of the DCO frequency up to ±3500 ppm from the center
frequency configuration without interruption to the
output clock. Changes greater than the ±3500 ppm
window will cause the device to recalibrate its internal
tuning circuitry, forcing the output clock to momentarily
stop and start at any arbitrary point during a clock cycle.
This re-calibration process establishes a new center
frequency and can take up to 10 ms. Circuitry receiving
a clock from the Si59x device that is sensitive to glitches
or runt pulses may have to be reset once the
recalibration process is complete.
3.1.1. Reconfiguring the Output Clock for a Small
Change in Frequency
For output changes less than ±3500 ppm from the
center frequency configuration, the DCO frequency is
the only value that needs reprogramming. Since
fDCO = fXTAL x RFREQ, and that fXTAL is fixed, changing
the DCO frequency is as simple as reconfiguring the
RFREQ value as outlined below:
1. Using the serial port, read the current RFREQ value
(registers 0x08–0x12).
2. Calculate the new value of RFREQ given the change
in frequency.
f out_new
RFREQ new = RFREQ current ------------------------f out_current
3. Using the serial port, write the new RFREQ value
(registers 0x08—0x12). Multi-byte changes to
RFREQ can freeze the DCO to avoid unintended
RFREQ values.
Example:
An Si598 generating a 148.35 MHz clock must be
reconfigured "on-the-fly" to generate a 148.5 MHz clock.
This represents a change of +1011.122 ppm, which is
well within the ±3500 ppm window.
Center
Frequency
Configuration
4.85 GHz
-3500 ppm
small frequency changes can be made
without interruption to the output clock
+3500 ppm
5.67 GHz
Figure 3. DCO Frequency Range
11
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�Si598/Si599
A typical frequency configuration for this example:
RFREQcurrent = 0x8858199E9
Fout_current = 148.35 MHz
Fout_new = 148.50 MHz
Calculate RFREQnew to change the output frequency
from 148.35 to 148.5 MHz:
148.50 MHz
RFREQ new = 0x8858199E9 -------------------------------148.35 MHz
= 0x887B6473C
Note that performing calculations with RFREQ requires
a minimum of 38-bit arithmetic precision.
Relatively small changes in output frequency may
require writing more than one RFREQ register. Such
multi-register RFREQ writes can impact the output clock
frequency on a register-by-register basis during
updating.
Interim changes to the output clock during RFREQ
writes can be prevented by using the following
procedure:
1. Freeze the "M" value (Set Register 135 bit 5 = 1)
2. Write the new frequency configuration (RFREQ)
RFREQ, HSDIV, and N1 are calculated to generate a
new output frequency (fout_new). New values can be
calculated manually or with the Si59x-EVB software,
which provides a user-friendly application to help find
the optimum values.
The first step in manually calculating the frequency
configuration is to determine new frequency divider
values (HSDIV, N1). Given the desired output frequency
(fout_new), find the frequency divider values that will
keep the DCO oscillation frequency in the range of 4.85
to 5.67 GHz.
f DCO_new = f out_new HSDIV new N1 new
Valid values of HSDIV are 9 or 11. N1 can be selected
as 1 or any even number up to 128 (i.e., 1, 2, 4, 6, 8, 10
… 128). To help minimize the device's power
consumption, the divider values should be selected to
keep the DCO's oscillation frequency as low as
possible. The lowest value of N1 with the highest value
of HS_DIV also results in the best power savings.
Once HS_DIV and N1 have been determined, the next
step is to calculate the reference frequency multiplier
(RFREQ).
3. Unfreeze the "M" value (Set Register 135 bit 5 = 0)
3.1.2. Reconfiguring the Output Clock for Large
Changes in Output Frequency
For output frequency changes outside of ±3500 ppm
from the center frequency, it is likely that both the DCO
frequency and the output dividers need to be
reprogrammed. Note that changing the DCO frequency
outside of the ±3500 ppm window will cause the output
to momentarily stop and restart at any arbitrary point in
a clock cycle. Devices sensitive to glitches or runt
pulses may have to be reset once reconfiguration is
complete.
The process for reconfiguring the output frequency
outside of a ±3500 ppm window is shown below:
f DCO_new
RFREQ new = ---------------------f XTAL
RFREQ is programmable as a 38-bit binary fractional
frequency multiplier with the first 10 most significant bits
(MSBs) representing the integer portion of the multiplier
and the 28 least significant bits (LSBs) representing the
fractional portion.
Before entering a fractional number into the RFREQ
register, it must be converted to a 38-bit integer using a
bitwise left shift operation by 28 bits, which effectively
multiplies RFREQ by 228.
Example:
1. Using the serial port, read the current values for
RFREQ, HSDIV, and N1.
RFREQ = 136.3441409d
2. Calculate fXTAL for the device. Note that because of
slight variations of the internal crystal frequency from
one device to another, each device may have a
different RFREQ value or possibly even different
HSDIV or N1 values to maintain the same output
frequency. It is necessary to calculate fXTAL for each
device.
Discard the fractional portion = 36599601635d
f XTAL
F out HSDIV N1
= -------------------------------------------------RFREQ
Multiply RFREQ by 228 = 36599601635.42d
Convert to hexadecimal = 0x8858199E9
Once the new values for RFREQ, HSDIV, and N1 are
determined, they can be written directly into the device
from the serial port using the following procedure:
1. Freeze the DCO (bit 4 of Register 137)
2. Write the new frequency configuration (RFREQ,
HS_DIV, N1)
Once fXTAL has been determined, new values for
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3. Unfreeze the DCO and assert the NewFreq bit (bit 6
of Register 135) within the maximum Unfreeze to
NewFreq Timeout in Table 12, “Programming
Constraints and Timing,” on page 9.
The process of freezing and unfreezing the DCO will
cause the output clock to momentarily stop and start at
any arbitrary point during a clock cycle. This process
can take up to 10 ms. Circuitry that is sensitive to
glitches or runt pulses may have to be reset after the
new frequency configuration is written.
5.67 GHz. In this case, keeping the same output
dividers will still keep fDCO within its range limits:
f DCO_new = f out_new HSDV new N1 new
= 161.1328125 MHz 4 8 = 5.156250000 GHz
Calculate the new value of RFREQ given the new DCO
frequency:
f DCO_new
RFREQ new = ---------------------- = 131.637733d = 0x83A342779
f XTAL
Example:
An Si598 generating 156.25 MHz must be re-configured
to generate a 161.1328125 MHz clock (156.25 MHz x
66/64). This frequency change is greater than
±3500 ppm.
fout = 156.25 MHz
Read the current values for RFREQ, HS_DIV, N1:
RFREQcurrent = 0x7FA611E85 = 34265439877d,
34265439877d / 228 = 127.64871074631810d
HS_DIV = 4
N1 = 8
Calculate fXTAL, fDCO_current
f DCO_current = f out HSDV N1 = 5.000000000 GHz
f DCO_current
f XTAL = -------------------------------------- = 39.17 MHz
RFREQ current
Given fout_new = 161.1328125 MHz, choose output
dividers that will keep fDCO within the range of 4.85 to
S Slave Address
0
A Byte Address A
3.2. I2C Interface
The control interface to the Si598 is an I2C-compatible
2-wire bus for bidirectional communication. The bus
consists of a bidirectional serial data line (SDA) and a
serial clock input (SCL). Both lines must be connected
to the positive supply via an external pullup.Fast mode
operation is supported for transfer rates up to 400 kbps
as specified in the I2C-Bus Specification standard.
Figure 4 shows the command format for both read and
write access. Data is always sent MSB. Data length is 1
byte. Read and write commands support 1 or more data
bytes as illustrated. The master must send a Not
Acknowledge and a Stop after the last read data byte to
terminate the read command. The timing specifications
and timing diagram for the I2C bus can be found in the
I2C-Bus Specification standard (fast mode operation).
The device I2C address is specified in the part number.
Data
A
Data
A
P
Write Command
(Optional 2 nd data byte and acknowledge illustrated)
S Slave Address
0
A Byte Address A
S
Slave Address 1
A
Data
A
Data
N
P
Read Command
(Optional data byte and acknowledge before the last data byte and not acknowledge illustrated)
From master to slave
From slave to master
A – Acknowledge (SDA LOW)
N – Not Acknowledge (SDA HIGH).
Required after the last data byte to signal the end of the read comand to the slave.
S – START condition
P – STOP condition
Figure 4. I2C Command Format
13
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4. Serial Port Registers
Note: Registers not documented are reserved. Values within reserved registers and reserved bits must not be changed.
Register
Name
Bit 7
Bit 6
Bit 5
Bit 4
Bit 3
7
High Speed/
N1 Dividers
8
Reference
Frequency
9
Reference
Frequency
RFREQ[31:24]
10
Reference
Frequency
RFREQ[23:16]
11
Reference
Frequency
RFREQ[15:8]
12
Reference
Frequency
RFREQ[7:0]
135
NewFreq/Freeze/
Memory
Control
137
Freeze DCO
HS_DIV[2:0]
NewFreq Freeze M
Reserved
Bit 1
Bit 0
N1[6:2]
N1[1:0]
Reserved
Bit 2
RFREQ[37:32]
Freeze
VCADC
Freeze
DCO
Reserved
RECALL
Reserved
14
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Register 7. High Speed/N1 Dividers
Bit
D7
D6
D5
D4
D3
D2
Name
HS_DIV[2:0]
N1[6:2]
Type
R/W
R/W
Bit
Name
7:5
HS_DIV[2:0]
4:0
N1[6:2]
D1
D0
Function
DCO High Speed Divider.
Sets value for high speed divider that takes the DCO output fOSC as its clock input.
000 = 4
001 = 5
010 = 6
011 = 7
100 = Not used.
101 = 9
110 = Not used.
111 = 11
CLKOUT Output Divider.
Sets value for CLKOUT output divider. Allowed values are [1] and [2, 4, 6, ..., 27]. Illegal
odd divider values will be rounded up to the nearest even value. The value for the N1
register can be calculated by taking the divider ratio minus one. For example, to divide by
10, write 0001001 (9 decimal) to the N1 registers.
0000000 = 1
1111111 = 27
Register 8. Reference Frequency
Bit
D7
D6
D5
D4
D3
D2
Name
N1[1:0]
RFREQ[37:32]
Type
R/W
R/W
D1
D0
Bit
Name
Function
7:6
N1[1:0]
CLKOUT Output Divider.
Sets value for CLKOUT output divider. Allowed values are [1] and [2, 4, 6, ..., 27]. Illegal odd divider values will be rounded up to the nearest even value. The value for the
N1 register can be calculated by taking the divider ratio minus one. For example, to
divide by 10, write 0001001 (9 decimal) to the N1 registers.
0000000 = 1
1111111 = 27
5:0
RFREQ[37:32]
Reference Frequency.
Frequency control input to DCO.
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Register 9. Reference Frequency
Bit
D7
D6
D5
D4
D3
Name
RFREQ[31:24]
Type
R/W
Bit
Name
7:0
RFREQ[31:24]
D2
D1
D0
D2
D1
D0
D2
D1
D0
Function
Reference Frequency.
Frequency control input to DCO.
Register 10. Reference Frequency
Bit
D7
D6
D5
D4
D3
Name
RFREQ[23:16]
Type
R/W
Bit
Name
7:0
RFREQ[23:16]
Function
Reference Frequency.
Frequency control input to DCO.
Register 11. Reference Frequency
Bit
D7
D6
D5
D4
D3
Name
RFREQ[15:8]
Type
R/W
Bit
Name
7:0
RFREQ[15:8]
Function
Reference Frequency.
Frequency control input to DCO.
16
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Register 12. Reference Frequency
Bit
D7
D6
D5
D4
D3
Name
RFREQ[7:0]
Type
R/W
Bit
Name
7:0
RFREQ[7:0]
D2
D1
D0
D2
D1
D0
Function
Reference Frequency.
Frequency control input to DCO.
Register 135. NewFreq/Freeze/Memory Control
Bit
D7
Name
Type
R/W
D6
D5
D4
NewFreq
Freeze M
Freeze
VCADC
R/W
R/W
R/W
D3
RECALL
R/W
R/W
R/W
R/W
Reset settings = 00xxxx00
Bit
Name
Function
7
Reserved
This bit should read 0 in normal operation.
6
NewFreq
New Frequency Applied.
Alerts the DSPLL that a new frequency configuration has been applied. This bit will
clear itself when the new frequency is applied. Write 0x40 to this register to assert
NewFreq.
5
Freeze M
Freezes the M Control Word.
Prevents interim frequency changes when writing RFREQ registers.
4
Freeze
VCADC
3:1
Reserved
Always zero.
0
RECALL
Recall NVM into RAM.
0 = No operation.
1 = Write NVM bits into RAM. Bit is internally reset following completion of operation.
Freezes the VCDADC Output Word.
May be used to hold the nominal output frequency of the Si599. Do not use with Si598.
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Register 137. Freeze DCO
Bit
D7
D6
D5
D3
D2
D1
D0
R
R
R
R
Freeze DCO
Name
Type
D4
R/W
R/W
R/W
R/W
Reset settings = Si598: 0000xxxx, Si599: 1000xxxx
Bit
Name
Function
7
Reserved
0: Si598
1: Si599
6:5
Reserved
This bits should read 0 in normal operation.
4
Freeze DCO
3:0
Reserved
Freeze DCO.
Freezes the DSPLL so the frequency configuration can be modified.
Si598: Write 0x10 to this register to Freeze DCO.
Si599: Write 0x90 to this register to Freeze DCO.
Read only.
18
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5. Si598 (XO) Pin Descriptions
(Top View)
SDA
7
NC
1
6
VDD
OE
2
5
CLK–
GND
3
4
CLK+
8
SCL
Table 15. Si598 Pin Descriptions
Pin
Name
Type
Function
1
NC
N/A
2
OE
Input
3
GND
Ground
Electrical and Case Ground.
4
CLK+
Output
Oscillator Output.
5
CLK–
(NC for CMOS)
Output
(N/A for CMOS)
6
VDD
Power
7
SDA
Bidirectional
Open Drain
I2C Serial Data.
8
SCL
Input
I2C Serial Clock.
No Connect.
Make no external connection to this pin.
Output Enable.*
See 7. Ordering Information on page 21.
Complementary Output.
(NC for CMOS, do not make external connection).
Power Supply Voltage.
*Note: OE pin includes a 17 k resistor to VDD for OE active high option or 17 k to GND for OE active low option.
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6. Si599 (VCXO) Pin Descriptions
(Top View)
SDA
7
VC
1
6
VDD
OE
2
5
CLK–
GND
3
4
CLK+
8
SCL
Table 16. Si599 Pin Descriptions
Pin
Name
Type
Function
1
VC
Analog Input
2
OE
Input
3
GND
Ground
Electrical and Case Ground.
4
CLK+
Output
Oscillator Output.
5
CLK–
(NC for CMOS)
Output
(N/A for CMOS)
6
VDD
Power
7
SDA
Bidirectional
Open Drain
I2C Serial Data.
8
SCL
Input
I2C Serial Clock.
Control Voltage.
Output Enable.*
See 7. Ordering Information on page 21.
Complementary Output.
(NC for CMOS, do not make external connection).
Power Supply Voltage.
*Note: OE pin includes a 17 k resistor to VDD for OE active high option or 17 k to GND for OE active low option.
20
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7. Ordering Information
The Si598/Si599 supports a wide variety of options including frequency range, start-up frequency, temperature
stability, tuning slope, output format, and VDD. Specific device configurations are programmed into the Si598/Si599
at time of shipment. Configurations are specified using the Part Number Configuration chart shown below.
Skyworks Solutions provides a web browser-based part number configuration utility to simplify this process. Refer
to https://www.skyworksinc.com/en/Products/Timing to access this tool and for further ordering instructions. The
Si598/Si599 XO/VCXO series is supplied in an industry-standard, RoHS compliant, 8-pad, 5x7 mm package. Tape
and reel packaging is an ordering option.
59x
X
X
X
XXX XXX
D
G
R
R = Tape and Reel
Blank = Coil Tape
Operating Temp Range (°C )
G
–40 to +85 °C
598 Programmable
XO Product Family
599 Programmable
VCXO Product Family
Device Revision Letter
2
Six-Digit Start-up Frequency /I C Address Designator
The Si59x supports a user -defined start -up frequency between
10– 810 MHz. The start-up frequency must be in the same frequency range
rd
as that specified by the Frequency Grade 3 option code .
The Si59x supports a user -defined I 2C 7-bit address. Each unique start-up
2
frequency/ I C address combination is assigned a six-digit numerical code.
This code can be requested during the part number request process . Refer
to www .silabs.com/VCXOPartNumber to request an Si 59 x part number .
st
1 Option Code
A
B
C
D
E
F
G
H
J
K
M
N
P
Q
R
S
T
U
V
W
VDD
3.3
3.3
3.3
3.3
2.5
2.5
2.5
2.5
1.8
1.8
3.3
3.3
3.3
3.3
2.5
2.5
2.5
2.5
1.8
1.8
Output Format Output Enable Polarity
LVPECL
High
LVDS
High
CMOS
High
CML
High
LVPECL
High
LVDS
High
CMOS
High
CML
High
CMOS
High
CML
High
LVPECL
Low
LVDS
Low
CMOS
Low
CML
Low
LVPECL
Low
LVDS
Low
CMOS
Low
CML
Low
CMOS
Low
CML
Low
rd
3 Option Code
Frequency Grade
Code
A
B
C
Si598
Frequency Range Supported (MHz)
10 -810
10 -280
10 -160 (CMOS available to 160 MHz )
Code
A
B
C
2nd Option Code
Temperature Stability (ppm , max , ±) Total Stablility (ppm , max, ±)
50
100
25
50
20
30
2 nd Option Code
Note:
CMOS available to 160 MHz.
Temperature
Stability
± ppm (max)
20
20
50
20
20
50
50
20
Si599
Tuning Slope
Kv
ppm /V (typ)
380
185
185
125
95
125
95
45
Minimum APR
(±ppm ) for VDD @
2 .5 V
275
110
80
75
50
45
20
N/A
Code
3.3 V
1 .8 V
A
370
200
B
160
80
C
130
50
D
100
40
E
65
25
F
70
10
G
35
N/A
H
15
N/A
Notes :
1 . For best jitter and phase noise performance , always choose the smallest Kv that meets
the application’s minimum APR requirements . See AN266 for more information .
2 . APR is the ability of a VCXO to track a signal over the product lifetime. A VCXO with an
APR of ±25 ppm is able to lock to a clock with a ± 25 ppm stability over 15 years over all
operating conditions .
3 . Nominal pull range (±) = 0 .5 x V DD x tuning slope .
4 . Minimum APR values noted above include worst case values for all parameters .
Figure 5. Part Number Convention
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Table 17. Standard Si598 Part Numbers
Part Number
VDD
Output
Format
Total Stability
Frequency
Range
Startup
Frequency
I2C Address
598CCC000107DG
3.3V
CMOS
30 ppm
10–160 MHz
10 MHz
0x55
598BCA000107DG
3.3V
LVDS
30 ppm
10–810 MHz
10 MHz
0x55
22
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8. Si59x Mark Specification
Figure 6 illustrates the mark specification for the Si59x. Table 18 lists the line information.
Figure 6. Mark Specification
Table 18. Si59x Top Mark Description
Line
Position
Description
1
1–10
“SiLabs"+ Part Family Number, 59x (first 3 characters in part number where x = 8
indicates a 598 device and x = 9 indicates a 599 device).
2
1–10
Option1 + Option2 + Option3 + ConfigNum(6) + Temp
3
Trace Code
Position 1
Pin 1 orientation mark (dot)
Position 2
Product Revision (D)
Position 3–6
Tiny Trace Code (4 alphanumeric characters per assembly release instructions)
Position 7
Year (least significant year digit), to be assigned by assembly site (ex: 2010 = 0)
Position 8–9
Calendar Work Week number (1–53), to be assigned by assembly site
Position 10
“+” to indicate Pb-Free and RoHS-compliant
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9. Outline Diagram and Suggested Pad Layout
Figure 7 illustrates the package details for the Si598/Si599. Table 19 lists the values for the dimensions shown in
the illustration.
Figure 7. Si598/Si599 Outline Diagram
Table 19. Package Diagram Dimensions (mm)
Dimension
A
b
b1
c
c1
D
D1
e
E
E1
H
L
L1
p
R
aaa
bbb
ccc
ddd
eee
Min
1.50
1.30
0.90
0.50
0.30
4.30
6.10
0.55
1.17
1.07
1.80
—
—
—
—
—
Nom
1.65
1.40
1.00
0.60
—
5.00 BSC
4.40
2.54 BSC
7.00 BSC
6.20
0.65
1.27
1.17
—
0.70 REF
—
—
—
—
—
Max
1.80
1.50
1.10
0.70
0.60
4.50
6.30
0.75
1.37
1.27
2.60
0.15
0.15
0.10
0.10
0.05
Note:
1. All dimensions shown are in millimeters (mm) unless otherwise noted.
2. Dimensioning and Tolerancing per ANSI Y14.5M-1994.
24
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10. 8-Pin PCB Land Pattern
Figure 8 illustrates the 8-pin PCB land pattern for the Si598/Si599. Table 20 lists the values for the dimensions
shown in the illustration.
Figure 8. Si598/Si599 PCB Land Pattern
Table 20. PCB Land Pattern Dimensions (mm)
Dimension
Min
Max
D2
5.08 REF
D3
5.705 REF
e
2.54 BSC
E2
4.20 REF
GD
0.84
—
GE
2.00
—
VD
8.20 REF
VE
7.30 REF
X1
1.70 TYP
X2
1.545 TYP
Y1
2.15 REF
Y2
1.3 REF
ZD
—
6.78
ZE
—
6.30
Note:
1. Dimensioning and tolerancing per the ANSI Y14.5M-1994
specification.
2. Land pattern design follows IPC-7351 guidelines.
3. All dimensions shown are at maximum material condition
(MMC).
4. Controlling dimension is in millimeters (mm).
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REVISION HISTORY
Revision 1.1
June, 2018
Changed “Trays” to “Coil Tape” in 7. Ordering Information on page 21.
Revision 1.0
Updated Register 135, “NewFreq/Freeze/Memory Control,” on page 17.
Updated Register 137, “Freeze DCO,” on page 18.
Revision 0.9
Updated Si598/599 devices to support frequencies up to 810 MHz for LVPECL, LVDS, and CML outputs.
Added Table 13, “Thermal Characteristics,” on page 10.
Updated ESD HBM sensitivity rating in Table 14 on page 10.
Updated Table 11 on page 9 to include "Moisture Sensitivity Level" and "Contact Pads" rows.
Updated Figure 6 and Table 18 on page 23 to reflect specific marking information.
Corrected pin 7 and pin 8 designation in package diagram in Figure 7 on page 24.
26
Skyworks Solutions, Inc. • Phone [781] 376-3000 • Fax [781] 376-3100 • sales@skyworksinc.com • www.skyworksinc.com
Rev. 1.1 • Skyworks Proprietary Information • Products and Product Information are Subject to Change Without Notice • September 27, 2021
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