Si5355
A NY -F R E Q U E N C Y 1 – 2 0 0 M H Z Q U A D F R E Q U E N C Y
8 - O U T P U T C L O C K G E N E R ATO R
Features
Generates any frequency from 1 to
200 MHz on each of the 4 output banks
Eight CMOS clock outputs
Guaranteed 0 ppm frequency synthesis
error for any combination of frequencies
25 or 27 MHz xtal or 5–200 MHz input clk
Five programmable control pins (output
enable, frequency select, reset)
Separate OEB pins to disable individual
banks or all outputs
Loss of signal output
Low 50 ps (typ) pk-pk period jitter
Phase jitter: 2 ps rms 12 kHz–20 MHz
Excellent PSRR performance
eliminates need for external power
supply filtering
Low power: 45 mA (core)
Core VDD: 1.8, 2.5, or 3.3 V
Separate VDDO for each bank of
outputs: 1.8, 2.5, or 3.3 V
Small size: 4x4 mm 24-QFN
Industrial temperature range:
–40 to +85 °C
Custom versions available using
ClockBuilder™ web utility
Samples available in 2 weeks
Ordering Information:
See page 17.
Pin Assignments
Applications
GND
CLK0
CLK1
VDDOA
P3
23
22
21
20
19
1
18 CLK2
XB
2
17 CLK3
P1
3
16 VDDOB
GND
GND
4
15 VDDOC
P4
5
14 CLK4
P5
6
7
8
9
10
11
12
P2
CLKIN
CLK6
The Si5355 is a highly flexible clock generator capable of synthesizing four completely non-integer related frequencies up to 200 MHz. The device has four banks
of outputs with each bank supporting two CMOS outputs at the same frequency.
Using Skyworks Solutions' patented MultiSynth fractional divider technology, all
outputs are guaranteed to have 0 ppm frequency synthesis error regardless of
configuration, enabling the replacement of multiple clock ICs and crystal oscillators with a single device. Through a flexible web configuration utility called ClockBuilder™ (https://www.skyworksinc.com/en/application-pages/clockbuilder-prosoftware), factory-customized pin-controlled Si5355 devices are available in two
weeks without minimum order quantity restrictions. The Si5355 supports up to
three independent, pin-selectable device configurations, enabling one device to
replace three separate clock ICs.
24
XA
VDDOD
Description
Top View
CLK7
Storage
Switches/routers
Computing
Servers
OC-3/OC-12 line cards
VDD
LOS
Printers
Audio/video
Networking
Communications
VDD
13 CLK5
Functional Block Diagram
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TABLE O F C ONTENTS
Section
Page
1. Electrical Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4
2. Typical Application Circuit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .7
3. Functional Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .8
3.1. Input Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .8
3.2. Breakthrough MultiSynth Technology . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .9
3.3. Input and Output Frequency Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10
3.4. Multi-Function Control Inputs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10
3.5. Output Enable . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11
3.6. Frequency Select/Device Reset . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11
3.7. Loss-of-Signal Alarm . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .11
3.8. CMOS Output Drivers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12
3.9. Jitter Performance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
3.10. Power Supply Considerations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
3.11. ClockBuilder Web-Customization Utility . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
4. Pin Descriptions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14
5. Ordering Guide . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17
5.1. Evaluation Board . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17
6. Package Outline: 24-Lead QFN . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18
7. Recommended PCB Layout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19
8. Top Marking . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20
8.1. Si5355 Top Marking . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20
8.2. Top Marking Explanation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .20
Document Change List . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .21
Contact Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .22
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1. Electrical Specifications
Table 1. Recommended Operating Conditions
(VDD = 1.8 V –5% to +10%, 2.5 or 3.3 V ±10%, TA = –40 to 85 °C)
Parameter
Symbol
Test Condition
Min
Typ
Max
Units
Ambient Temperature
TA
–40
—
85
oC
Core Supply Voltage
VDD
2.97
3.3
3.63
V
2.25
2.5
2.75
1.71
1.8
1.98
1.71
—
3.63
Output Buffer Supply Voltage
VDDO
V
Note: All minimum and maximum specifications are guaranteed and apply across the recommended operating
conditions. Typical values apply at nominal supply voltages and an operating temperature of 25 °C unless
otherwise noted.
Table 2. DC Characteristics
(VDD = 1.8 V –5% to +10%, 2.5 or 3.3 V ±10%, TA = –40 to 85 °C)
Parameter
Core Supply Current
Output Buffer Supply Current
High Level Input Voltage
Low Level Input Voltage
Symbol
Test Condition
Min
Typ
Max
Units
IDD
100 MHz on all outputs,
25 MHz refclk
—
45
60
mA
IDDOx
CMOS, 50 MHz
15 pF load
—
6
9
mA
CMOS, 200 MHz
3.3 V VDD0
—
13
18
mA
CMOS, 200 MHz
2.5 V
—
10
14
mA
CMOS, 200 MHz
1.8 V
—
7
10
mA
CLKIN, P1
0.8 x VDD
—
3.63
V
P4, P5
0.85
—
1.3
V
P2, P3
1.6
—
3.63
V
CLKIN, P1, P2, P3
–0.2
—
0.2 x VDD
V
P4,P5
—
—
0.3
V
VIH
VIL
Clock Output High Level Output
Voltage
VOH
Pins: CLK0-7
IOH = –4 mA
VDDO – 0.3
—
—
V
Clock Output Low Level Output Voltage
VOL
Pins: CLK0-7
IOL = +4 mA
—
—
0.3
V
VOLLOS
Pin: LOS
IOL = +3 mA
0
—
0.4
V
—
20
—
k
LOS Low Level Output Voltage
Pn Input Resistance
4
RIN
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Table 3. AC Characteristics
(VDD = 1.8 V –5% to +10%, 2.5 or 3.3 V ±10%, TA = –40 to 85 °C)
Parameter
Symbol
Test Condition
Min
Typ
Max
Units
5
—
200
MHz
20–80% VDD
—
—
2.3
ns
10–90% VDD
—
—
4
ns
Input tr/tf within specified
limits shown above
40
—
60
%
Input Clock
Clock Input Frequency
Clock Input Rise/Fall Time
FIN
TR/TF
Clock Input Duty Cycle
DC
Clock Input Capacitance
CIN
—
2
—
pF
FO
1
—
200
MHz
0
0
1
ppb
—
—
15
pF
Output Clocks
Clock Output Frequency
Clock Output Frequency Synthesis
Resolution
Output Load Capacitance
FRES
See "3.3. Input and Output
Frequency Configuration"
on page 10
CL
Clock Output Rise/Fall Time
TR/TF
20 to 80% VDD,
CL = 15 pF
—
—
2.0
ns
Clock Output Rise/Fall Time
TR/TF
20 to 80% VDD,
CL = 2 pF
—
0.45
0.85
ns
45
50
55
%
—
—
2
ms
Clock Output Duty Cycle
DC
Powerup Time
TPU
Output Enable Time
TOEB
—
—
10
µs
Reset Minimum Pulse Width
TRESET
—
—
200
ns
Output-Output Skew
TSKEW
Outputs at same
frequency, fOUT > 5 MHz
–150
—
+150
ps
Period Jitter
JPPKPK
10000 cycles*
—
50
75
ps pk-pk
Cycle-Cycle Jitter*
JCCPK
10000 cycles*
—
40
70
ps pk
Phase Jitter
JPH
12 kHz to 20 MHz
—
2
—
ps rms
PLL Loop Bandwidth
FBW
—
1.6
—
MHz
tLOS
—
2.6
5
µs
CLKIN Loss of Signal Deassert
Time
tLOS_b
0.01
0.2
1
µs
LOS Rise/Fall Time (20–80%)
TR/TF
—
—
10
ns
POR to output clock valid
Interrupt Status Timing
CLKIN Loss of Signal Assert Time
CL < 10 pF, pullup < 1 k
*Note: Measured in accordance to JEDEC Standard 65.
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Table 4. Crystal Specifications
Parameter
Symbol
Test Condition
Min
Typ
Max
Units
FXTAL
Option 1
—
25
—
MHz
Option 2
—
27
—
MHz
cL (supported)*
11
12
13
pF
cL (recommended)
17
18
19
pF
CO
—
—
5
pF
25 MHz
—
—
100
27 MHz
—
—
75
100
—
—
µW
Crystal Frequency
Load Capacitance (on-chip
differential)
Crystal Output Capacitance
Equivalent Series Resistance
ESR
Crystal Drive Level Rating
dL
*Note: See "AN360: Crystal Selection Guide for Si533x and Si5355/56 Devices" for how to accommodate a 12 pF crystal CL.
Table 5. Thermal Conditions
Parameter
Symbol
Test Condition
Value
Units
Thermal Resistance Junction to Ambient
JA
Still Air
37
o
Thermal Resistance Junction to Case
JC
Still Air
25
oC/W
C/W
Table 6. Absolute Maximum Ratings1,2,3,4
Parameter
Symbol
Rating
Units
VDD
–0.5 to 3.8
V
Input Voltage Range (all pins except pins 1,2,5,6)
VI
–0.5 to 3.8
V
Input Voltage Range (pins 1,2,5,6)
VI2
–0.5 to 1.3
V
Output Voltage Range
VO
–0.5 to (VDD + 0.3)
Supply Voltage Range
Junction Temperature
ESD Tolerance
Latch-up Tolerance
Soldering Temperature (Pb-free profile)4
Soldering Temperature Time at TPEAK
(Pb-free profile)4
V
o
TJ
–55 to +150
HBM
2.5
kV
CDM
550
V
MM
175
V
LU
C
JESD78 Compliant
TPEAK
260
oC
TP
20–40
sec
Notes:
1. Permanent device damage may occur if the Absolute Maximum Ratings are exceeded. Functional operation should be
restricted to the conditions as specified in the operational sections of this data sheet. Exposure to maximum rating
conditions for extended periods may affect device reliability.
2. 24-QFN package is RoHS compliant.
3. For more packaging information, go to https://www.skyworksinc.com/Product_Certificate.aspx.
4. The device is compliant with JEDEC J-STD-020.
6
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2. Typical Application Circuit
+3.3 V
0.1 uF Power Supply
Decoupling Capacitors
(1 per VDD or VDDOx pin)
4-Port Ethernet Switch/Router
1
2
+3.3V
4
VDDOC
XA
XB
CLK0
CLKIN
CLK1
1k
3
12
19
Programmable
Input Pins
Rse
5
Rse
6
Rsh
Note: See section 3.1 for
information on selecting
Rse and Rsh.
CLK2
LOS
CLK3
Si5355
P1
CLK4
P2
CLK5
P3
CLK6
CLK7
P4
25
25
25
25
22
21
18
17
MHz
MHz
MHz
MHz
Ethernet
Ethernet
PHY
Ethernet
PHY
Ethernet
PHY
PHY
14
13
10
9
x
x
125 MHz
33/66 MHz
P5
Rsh
GND
8
GND
Loss Of
Signal
11
VDDOD
15
VDDOB
16
VDDOA
25 MHz
XTAL
20
VDD
24
VDD
7
23
23
MCU/
Processor
PAD
PAD
Ethernet
Switch
Laser Printer
+3.3 V
0.1 uF Power Supply
Decoupling Capacitors
(1 per VDD or VDDOx pin)
1
2
4
XA
125 MHz
XB
CLK0
CLKIN
CLK1
CLK2
+3.3V
CLK3
Si5355
1k
3
12
Programmable
Input Pins
Note: See section 3.1 for
information on selecting
Rse and Rsh.
19
Rse
5
Rse
6
Rsh
Rsh
CLK4
CLK5
LOS
CLK6
P1
CLK7
P2
Processor
DDR
Memory
Print Head
22
21
18
17
14
13
10
9
x
48 MHz
x
66/100 MHz
Paper Tray
x
Key Pad
x
35.788 MHz
P3
P4
Touchscreen
Controller
P5
23
23
GND
8
GND
Loss Of
Signal
USB
Controller
VDDOD
VDDOB
15 11
VDDOC
25 MHz
XTAL
20 16
VDD
24
VDD
7
VDDOA
Ethernet
PHY
LCD Screen
PAD
PAD
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3. Functional Description
Figure 1. Si5355 Functional Block Diagram
3.1. Input Configuration
The Si5355 input can be driven from either an external crystal or a reference clock. Reference selection is made
when the device configuration is specified using the ClockBuilder™ web-based utility available at
https://www.skyworksinc.com/en/application-pages/clockbuilder-pro-software. If the crystal input option is used, the
Si5355 operates as a free-running clock generator. In this mode of operation the device requires a low-cost 25 or
27 MHz fundamental mode crystal connected across XA and XB as shown in Figure 2. Given the Si5355’s
frequency flexibility, the same 25 or 27 MHz crystal can be reused to generate any combination of output
frequencies. Custom frequency crystals are not required. The Si5355 integrates the crystal load capacitors on-chip
to reduce external component count. The crystal should be placed very close to the device to minimize stray
capacitance. To ensure stable oscillation, the recommended crystal specifications provided in Table 4 on page 6
must be followed. See AN360 for additional details regarding crystal recommendations.
Si5355
XA
XTAL
XB
Figure 2. Connecting an XTAL to the Si5355
For synchronous timing applications, the Si5355 can lock to a 5 to 200 MHz CMOS reference clock. A typical
interface circuit is shown in Figure 3. A series termination resistor matching the driver’s output impedance to the
impedance of the transmission line is recommended to reduce reflections.
Si5355
Rs
50
CLKIN
Figure 3. Interfacing CMOS Reference Clocks to the Si5355
8
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Control input signals to P4 and P5 cannot exceed 1.3 V, yet also must meet the VOH and VOL specifications
outlined in Table 2 on page 4. When these inputs are driven from CMOS sources, a resistive attenuator as shown
in the Typical Application Circuits must be used. Suggested standard 1% resistor values for Rse and Rsh are
shown in Table 7.
Table 7. 1% Resistor Values
CMOS Level
Rse ()
Rsh ()
1.8 V
1000
1580
2.5 V
1960
1580
3.3 V
3090
1580
3.2. Breakthrough MultiSynth Technology
Next-generation timing architectures require a wide range of frequencies which are often non-integer related.
Traditional clock architectures address this by using a combination of single PLL ICs, 4-PLL ICs and discrete XOs,
often at the expense of BOM complexity and power. The Si5355 uses patented MultiSynth technology to
dramatically simplify timing architectures by integrating the frequency synthesis capability of 4 phase-locked loops
(PLLs) in a single device, greatly minimizing size and power requirements versus traditional solutions. Based on a
fractional-N PLL, the heart of the architecture is a low phase noise, high-frequency VCO. The VCO supplies a high
frequency output clock to the MultiSynth block on each of the four independent output paths. Each MultiSynth
operates as a high-speed fractional divider with Skyworks Solutions' proprietary phase error correction to divide
down the VCO clock to the required output frequency with very low jitter.
The first stage of the MultiSynth architecture is a fractional-N divider which switches seamlessly between the two
closest integer divider values to produce the exact output clock frequency with 0 ppm error. To eliminate phase
error generated by this process, MultiSynth calculates the relative phase difference between the clock produced by
the fractional-N divider and the desired output clock and dynamically adjusts the phase to match the ideal clock
waveform. This novel approach makes it possible to generate any output clock frequency without sacrificing jitter
performance. Based on this architecture, the output of each MultiSynth can produce any frequency from 1 to
200 MHz.
MultiSynth
fVCO
Fractional-N
Divider
Phase
Adjust
fOUT
Phase Error
Calculator
Divider Select
(DIV1, DIV2)
Figure 4. Skyworks Solutions' MultiSynth Technology
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3.3. Input and Output Frequency Configuration
The Si5355 utilizes a single PLL-based architecture, four independent MultiSynth fractional output dividers, and a
MultiSynth fractional feedback divider such that a single device provides the clock generation capability of 4
independent PLLs. Unlike competitive multi-PLL solutions, the Si5355 can generate four unique non-integer
related output frequencies with 0 ppm frequency error for any combination of output frequencies. In addition, any
combination of output frequencies can be generated from a single reference frequency without having to change
the crystal or reference clock frequency between frequency configurations.
The Si5355 frequency configuration is set when the device configuration is specified using the ClockBuilder webbased utility available at https://www.skyworksinc.com/en/application-pages/clockbuilder-pro-software. Any
combination of output frequencies ranging from 1 to 200 MHz can be configured on each of the device outputs. Up
to three unique device configurations can be specified in a single device, enabling the Si5355 to replace 3 different
clock generators.
3.4. Multi-Function Control Inputs
The Si5355 supports 5 user-defined input pins (pins 3, 5, 6, 12, 19) that are customizable to support the functions
listed below. The pinout of each device is customized using the ClockBuilder utility. This enables the device to be
custom tailored to a specific application. Each of the different functions is described in Table 8.
Table 8. Multi-Function Control Inputs Description
Pin Function
OEB_ALL
OEB_A
OEB_B
OEB_C
OEB_D
FS0
FS1
RESET
Description
Output Enable All.
All outputs enabled when low.
Output Enable Bank A.
CLK0/1 enabled when low.
Output Enable Bank B.
CLK2/3 enabled when low.
Output Enable Bank C.
CLK4/5 enabled when low.
Output Enable Bank D.
CLK6/7 enabled when low.
Frequency Select.
Selects active device frequency plan from factoryconfigured profiles.
Frequency Select.
Selects active device frequency plan from factoryconfigured profiles.
Reset.
Device reset required to change FS[1:0] pin setting.
Assignable Pin Name
P1, P2, P3, P4, or P5
P1, P2, P3, P4, or P5
P1, P2, P3, P4, or P5
P1, P2, P3, P4, or P5
P1, P2, P3, P4, or P5
P2
P3
P1, P3, P4, P5
10
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3.5. Output Enable
Each of the device’s four banks of CMOS clock outputs can be individually disabled using OEB_A, OEB_B,
OEB_C, and OEB_D for CLK0/1, CLK2/3, CLK4/5, and CLK6/7, respectively. Alternatively, all clock outputs can be
disabled using the master output enable OEB_ALL. When a Si5355 clock output bank is disabled, both outputs are
driven to an active low state. When one or more banks of clock outputs are enabled or disabled, clock start and
stop transitions are handled glitchlessly.
3.6. Frequency Select/Device Reset
The device frequency plan is customized using the ClockBuilder web utility. The Si5355 optionally supports up to
three unique, pin-selectable configurations per device, enabling one device to replace up to three separate clock
ICs. To select a particular frequency plan, set the FS pins as outlined below:
For custom Si5355 devices configured to support two frequency plans, the FS1 pin should be set as shown in
Table 9:
Table 9. FS1 Pin Logic for 2 Profile Devices
FS1
Profile
0
1
1
2
For custom Si5355 devices configured to support three frequency plans, the FS1 and FS0 pins should be set as
shown in Table 10:
Table 10. FS1/FS0 Pin Logic for 3 Profile Devices
FS1
FS0
Profile
0
0
Reserved
0
1
1
1
0
2
1
1
3
If a change is made to the FS pin settings, the device reset pin (RESET) must be held high for the minimum pulse
width specified in Table 3 on page 5 to change the device configuration. The output clocks will be momentarily
squelched until the device begins operation with the new frequency plan.
If the RESET pin is not selected in ClockBuilder as one of the five programmable pins, a power-on reset must be
applied for an FS pin change to take effect.
3.7. Loss-of-Signal Alarm
The Si5355 includes an interrupt pin that monitors for both loss of PLL lock (LOL) and loss of input signal (LOS)
conditions. The LOS pin is asserted whenever LOL or LOS is true. The LOS condition occurs when there is no
input clock to the device. When an input clock is removed, the LOS pin will assert, and the output may drift up to
5%. The LOL condition occurs when there is a reference present but it is off in frequency by a significant amount.
In this condition, the LOS pin will assert and the output will be disabled. When the input clock with an appropriate
frequency is reapplied, the LOS pin will de-assert. Note that the LOS pin is an open-drain output.
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3.8. CMOS Output Drivers
The Si5355 has 4 banks of outputs with each bank comprised of 2 clocks for a total of 8 CMOS outputs per device.
Each of the output banks can operate from a different VDDO supply (1.8 V, 2.5 V, 3.3 V), simplifying usage in
mixed supply applications. All clock outputs between 1 and 200 MHz are in-phase with minimal output-to-output
skew (see Table 3 on page 5 for specification). When an output bank is disabled using any of the OEB functions,
the clock outputs are stopped low.
The CMOS output driver has a controlled impedance in the range of 42 to 50 which includes an internal 22
series resistor. An external series resistor is not needed when driving 50 traces. If higher impedance traces are
used then a series resistor may be added. A typical configuration is shown in Figure 5.
Si5355
+1.8V, +2.5V, +3.3V
VDDOA
Bank A
MultiSynth
CLK0
50
CLK1
50
PLL
+1.8V, +2.5V, +3.3V
VDDOB
Bank B
MultiSynth
CLK2
50
CLK3
50
+1.8V, +2.5V, +3.3V
VDDOC
Bank C
MultiSynth
CLK4
50
CLK5
50
+1.8V, +2.5V, +3.3V
VDDOD
Bank D
MultiSynth
CLK6
CLK7
50
50
Figure 5. CMOS Output Driver Configuration
12
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3.9. Jitter Performance
The Si5355 provides consistently low jitter for any combination of output frequencies. The device leverages a low
phase noise single PLL architecture and Skyworks Solutions’ patented MultiSynth fractional output divider
technology to deliver excellent jitter performance guaranteed across process, temperature, and voltage. The
Si5355 provides superior performance to conventional multi-PLL solutions which may suffer from degraded jitter
performance depending on frequency plan and the number of active PLLs.
3.10. Power Supply Considerations
Additive Jitter (ps pk-pk)
The Si5355 has 2 core supply voltage pins (VDD) and 4 clock output bank supply voltage pins (VDDOA–VDDOD),
enabling the device to be used in mixed supply applications. The Si5355 does not require ferrite beads for power
supply filtering. The device has extensive on-chip power supply regulation to minimize the impact of power supply
noise on output jitter. Figure 6 is a curve of additive phase jitter with power supply noise. Note that even when a
significant amount of noise is applied to the device power supply, additive phase jitter is still very small.
10
9
8
7
6
5
4
3
2
1
0
0.0001
VDDO
VDD
0.001
0.01
0.1
1
Modulation Frequency (MHz)
Figure 6. Peak-to-Peak Additive Phase Jitter from 100 mV Sine Wave on Supply
3.11. ClockBuilder Web-Customization Utility
ClockBuilder is a web-based utility available at https://www.skyworksinc.com/en/application-pages/clockbuilderpro-software that allows hardware designers to tailor the Si5355’s flexible clock architecture to meet any
application-specific requirements and order custom clock samples. Through a simple point-and-click interface,
users can specify any combination of input frequency and output frequencies and generate a custom part number
for each application-specific configuration. There are no minimum order quantity restrictions.
ClockBuilder enables mass customization of clock generators. This allows a broader range of applications to take
advantage of using application-specific pin controlled clocks, simplifying design while eliminating the firmware
development required by traditional I2C-programmable clock generators.
Based on Skyworks Solutions’ patented MultiSynth technology, the device PLL output frequency is constant and all
clock output frequencies are synthesized by the four MultiSynth fractional dividers. All PLL parameters, including
divider settings, VCO frequency, loop bandwidth, charge pump current, and phase margin are internally set by the
device during the configuration process. This ensures optimized jitter performance and loop stability while
simplifying design.
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�Si5355
4. Pin Descriptions
VDD
GND
CLK0
CLK1
VDDOA
P3
Top View
24
23
22
21
20
19
XA
1
18 CLK2
XB
2
17 CLK3
P1
3
16 VDDOB
CLKIN
4
15 VDDOC
P4
5
14 CLK4
P5
6
7
8
9
10
11
12
VDD
LOS
CLK7
CLK6
VDDOD
P2
GND
GND
13 CLK5
Note: Center pad must be tied to GND for normal operation.
Table 11. Si5355 Pin Descriptions
Pin # Pin Name
I/O
Description
1
XA
I
External Crystal.
If a 25 or 27 MHz crystal is used as the device frequency reference, connect it across
XA and XB. If an input clock is used on pin 4, this pin should be tied to GND.
2
XB
I
External Crystal.
If a 25 or 27 MHz crystal is used as the device frequency reference, connect it across
XA and XB. If an input clock is used on pin 4, this pin should be tied to GND.
3
P1
I
Multi-Function Input (3.3 V Tolerant).
This pin functions as a multi-function input pin. The pin function (OEB_ALL, OEB_A,
OEB_B, OEB_C, OEB_D, or Reset) is user-selectable at time of configuration using the
ClockBuilder configuration utility.
4
CLKIN
I
Single-Ended Input Clock.
If a single-ended clock is used as the device frequency reference, connect it to this pin.
This pin functions as a high-impedance input for CMOS clock signals. The input should
be dc coupled. If a crystal is used as the device frequency reference, this pin should be
tied to GND.
14
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Table 11. Si5355 Pin Descriptions (Continued)
5
P4
I
Multi-Function Input.
This pin functions as a multi-function input pin. The pin function (OEB_ALL, OEB_A,
OEB_B, OEB_C, OEB_D, or Reset) is user-selectable at time of configuration using the
ClockBuilder configuration utility. A resistor voltage divider is required when controlled
by a signal greater than 1.3 V. See “2. Typical Application Circuit” for details.
6
P5
I
Multi-Function Input.
This pin functions as a multi-function input pin. The pin function (OEB_ALL, OEB_A,
OEB_B, OEB_C, OEB_D, or Reset) is user-selectable at time of configuration using the
ClockBuilder configuration utility. A resistor voltage divider is required when controlled
by a signal greater than 1.3 V. See “2. Typical Application Circuit” for details.
7
VDD
8
LOS
O
Loss of Signal.
A typical pullup resistor of 1–4 k should be used on this pin.
This pin functions as an input clock signal status pin.
0 = no LOS or LOL condition
1 = LOS or LOL condition
This pin is open drain and requires an external >1 k pullup resistor.
9
CLK7
O
Output Clock 7.
CMOS output clock. If unused, this pin must be left floating.
10
CLK6
O
Output Clock 6.
CMOS output clock. If unused, this pin must be left floating.
11
VDDOD
12
P2
I
Multi-Function Input (3.3 V Tolerant).
This pin functions as a multi-function input pin. The pin function (OEB_ALL, OEB_A,
OEB_B, OEB_C, OEB_D, or Frequency Select) is user-selectable at time of configuration using the ClockBuilder configuration utility
13
CLK5
O
Output Clock 5.
CMOS output clock. If unused, this pin must be left floating.
14
CLK4
O
Output Clock 4.
CMOS output clock. If unused, this pin must be left floating.
15
VDDOC
VDD Clock Output Bank C Supply Voltage.
Power supply for clock outputs 4 and 5. May be operated from a 1.8, 2.5 or 3.3 V supply. A 0.1 μF bypass capacitor should be located very close to this pin. If CLK4/5 are not
used, this pin must be tied to VDD or a voltage rail of at least 1.5 V.
16
VDDOB
VDD Clock Output Bank B Supply Voltage.
Power supply for clock outputs 2 and 3. May be operated from a 1.8, 2.5, or 3.3 V supply. A 0.1 μF bypass capacitor should be located very close to this pin. If CLK2/3 are not
used, this pin must be tied to VDD or a voltage rail of at least 1.5 V.
VDD Core Supply Voltage.
The device operates from a 1.8, 2.5, or 3.3 V supply. A 0.1 μF bypass capacitor should
be located very close to this pin.
VDD Clock Output Bank D Supply Voltage.
Power supply for clock outputs 6 and 7. May be operated from a 1.8, 2.5, or 3.3 V supply. A 0.1 μF bypass capacitor should be located very close to this pin. If CLK6/7 are not
used, this pin must be tied to VDD or a voltage rail of at least 1.5 V.
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Table 11. Si5355 Pin Descriptions (Continued)
17
CLK3
O
Output Clock 3.
CMOS output clock. If unused, this pin must be left floating.
18
CLK2
O
Output Clock 2.
CMOS output clock. If unused, this pin must be left floating.
19
P3
I
Multi-Function Input (3.3 V Tolerant).
This pin functions as a multi-function input pin. The pin function (OEB_ALL, OEB_A,
OEB_B, OEB_C, OEB_D, Frequency Select, or Reset) is user-selectable at time of
configuration using the ClockBuilder configuration utility
20
VDDOA
21
CLK1
O
Output Clock 1.
CMOS output clock. If unused, this pin must be left floating.
22
CLK0
O
Output Clock 0.
CMOS output clock. If unused, this pin must be left floating.
23
GND
GND Ground.
Must be connected to system ground. Minimize the ground path impedance for optimal
performance of the device.
24
VDD
VDD Core Supply Voltage.
The device operates from a 1.8, 2.5, or 3.3 V supply. A 0.1 μF bypass capacitor should
be located very close to this pin.
GND
PAD
GND
GND Ground Pad.
This is the large pad in the center of the package. See"7. Recommended PCB Layout"
on page 19 for the PCB pad sizes and ground via requirements. The device will not
function unless the ground pad is properly connected to a ground plane on the PCB.
VDD Clock Output Bank A Supply Voltage.
Power supply for clock outputs 0 and 1. May be operated from a 1.8, 2.5, or 3.3 V supply. A 0.1 μF bypass capacitor should be located very close to this pin. If CLK0/1 are not
used, this pin must be tied to VDD or a voltage rail of at least 1.5 V.
16
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5. Ordering Guide
Use the ClockBuilder web-based utility available at https://www.skyworksinc.com/en/applicationpages/clockbuilder-pro-software to specify a unique Si5355 device configuration. ClockBuilder assigns a unique 5digit code for each unique device configuration and creates an orderable part number. The utility may also be used
to order samples, place production orders and look up existing part numbers. In addition, ClockBuilder generates a
data sheet addendum for each unique part number that summarizes the device input frequency, output frequencies
and other configuration parameters for that specific part number.
Si5355A
Bxxxxx
G
M
R
R = tape & reel
Blank = trays (or other)
Contact your Skyworks Solutions, Inc. sales
representative for details regarding shipment
media.
M = RoHS6, Pb-free QFN
Any-Frequency 1–200 MHz
Quad Frequency
8-Output Clock Generator
G = –40 to +85 oC
B = product revision B
xxxxx = 5-digit custom code
assigned to each unique
device configuration by
ClockBuilder
5.1. Evaluation Board
Si5356
EVB
Evaluation Board for Si5356 and Si5355
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�Si5355
6. Package Outline: 24-Lead QFN
Figure 7. 24-Lead Quad Flat No-Lead (QFN)
Table 12. Package Dimensions
Dimension
Min
Nom
Max
A
0.80
0.85
0.90
A1
0.00
0.02
0.05
b
0.18
0.25
0.30
D
D2
4.00 BSC.
2.35
2.50
e
0.50 BSC.
E
4.00 BSC.
2.65
E2
2.35
2.50
2.65
L
0.30
0.40
0.50
aaa
0.10
bbb
0.10
ccc
0.08
ddd
0.10
eee
0.05
Notes:
1. All dimensions shown are in millimeters (mm) unless otherwise noted.
2. Dimensioning and Tolerancing per ANSI Y14.5M-1994.
3. This drawing conforms to the JEDEC Outline MO-220, variation VGGD-8.
4. Recommended card reflow profile is per the JEDEC/IPC J-STD-020 specification for Small Body Components.
5. Terminal base alloy: Cu.
6. Terminal plating/grid array material: Au/NiPd.
7. For more packaging information, go to https://www.skyworksinc.com/Product_Certificate.aspx.
18
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7. Recommended PCB Layout
Table 13. PCB Land Pattern
Dimension
Min
Nom
Max
P1
2.50
2.55
2.60
P2
2.50
2.55
2.60
X1
0.20
0.25
0.30
Y1
0.75
0.80
0.85
C1
3.90
C2
3.90
E
0.50
Notes:
General
1. All dimensions shown are in millimeters (mm) unless otherwise noted.
2. Dimensioning and Tolerancing per ANSI Y14.5M-1994 specification.
3. This Land Pattern Design is based on the IPC-7351 guidelines.
4. Connect the center ground pad to a ground plane with no less than five vias. These 5 vias should have a length of no more
than 20 mils to the ground plane. Via drill size should be no smaller than 10 mils. A longer distance to the ground plane is
allowed if more vias are used to keep the inductance from increasing.
Solder Mask Design
5. All metal pads are to be non-solder mask defined (NSMD). Clearance between the solder mask and the metal pad is
to be 60 µm minimum, all the way around the pad.
Stencil Design
6. A stainless steel, laser-cut and electro-polished stencil with trapezoidal walls should be used to assure good solder
paste release.
7. The stencil thickness should be 0.125 mm (5 mils).
8. The ratio of stencil aperture to land pad size should be 1:1 for all perimeter pins.
9. A 2x2 array of 1.0 mm square openings on 1.25 mm pitch should be used for the center ground pad.
Card Assembly
10. A No-Clean, Type-3 solder paste is recommended.
11. The recommended card reflow profile is per the JEDEC/IPC J-STD-020 specification for Small Body Components.
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8. Top Marking
8.1. Si5355 Top Marking
Si5355
Axxxxx
RTTTTT
YYWW
8.2. Top Marking Explanation
Mark Method:
Laser
Line 1 Marking:
Device Part Number
Line 2 Marking:
Axxxxx
A = Frequency and configuration code.
Pin-controlled, any-frequency 1-200 MHz,
quad frequency, 8-Output clock generator
xxxxx = NVM code for custom factoryprogrammed devices.
See Ordering Guide section in data sheet
for more information.
Line 3 Marking:
R = Product revision.
TTTTT = Manufacturing trace code.
RTTTTT
Line 4 Marking:
Pin 1 indicator.
Circle with 0.5 mm diameter;
left-justified
YY = Year.
WW = Work week.
Characters correspond to the year and
work week of package assembly.
YYWW
Si5355
20
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�Si5355
DOCUMENT CHANGE LIST
Revision 0.1 to Revision 0.2
Documentation updated to reflect CLKIN is on pin 4,
not pin 3.
Revision 0.2 to Revision 0.3
Added cycle-cycle and phase jitter specifications to
Table 3 on page 5.
Changed period jitter specification from 100 ps to
75 ps pk-pk.
Added Theta JC specification to Table 5 on page 6.
Updated "2. Typical Application Circuit" on page 7.
Added Table 7 on page 9.
Clarified device operation during an input clock loss
of signal.
Updated Recommended PCB Layout.
“3.8. CMOS Output Drivers” text to prevent
duplicating specs in “Table 3. AC Characteristics.”
Added Evaluation Board information to the Ordering
Guide.
Revision 1.0 to Revision 1.1
Updated ordering information to refer to revision B
silicon.
Updated top marking explanation in Section 8.2.
Revision 1.1 to Revision 1.2
Removed MSL rating
Revision 0.3 to Revision 1.0
Added shipment media information for GM (vs GMR)
parts.
Changed Si5356 references to Si5355.
Updated VDDO pin descriptions for unused clock
banks. VDDOx associated with an unused clock
bank should be tied to > 1.5 V.
Changed the name of output enable/disable control
function pins in section 3.5 and Tables 3, 8, and 9 to
align better with the actual pin functionality.
Updated Table 2. DC Characteristics.
Added
IDDOx specification.
Pn Input Resistance specification.
Corrected
Updated Table 3, “AC Characteristics,” on page 5.
Added
10–90% input clock rise/fall time.
LOS assert/deassert time.
Added note on jitter test.
Updated 20–80% rise/fall time with CL = 15 pF for
output clocks to the maximum value of 2.0 ns.
Changed Frequency Synthesis Resolution spec to the
correct value of 1ppb max.
Added
Updated recommended crystal parameters in
Table 4 on page 6 to show support for both crystals
rated for either 18 or 12 pF load capacitance.
Updated Table 6 on page 6.
Added
Soldering profile specification
Input Voltage Range (VI2) to 1.3 V (max).
Corrected
Added
packaging/RoHS information.
Removed jitter spec from section “3.9. Jitter
Performance” to prevent duplicating specs in
“Table 3. AC Characteristics.”
Removed output-to-output skew spec from section
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Customize Skyworks clock generators,
jitter attenuators and network
synchronizers with a single tool. With
CBPro you can control evaluation
boards, access documentation, request
a custom part number, export for
in-system programming and more!
www.skyworksinc.com/CBPro
Portfolio
SW/HW
Quality
Support & Resources
www.skyworksinc.com/ia/timing
www.skyworksinc.com/CBPro
www.skyworksinc.com/quality
www.skyworksinc.com/support
Copyright © 2021 Skyworks Solutions, Inc. All Rights Reserved.
Information in this document is provided in connection with Skyworks Solutions, Inc. (“Skyworks”) products or services. These materials, including the
information contained herein, are provided by Skyworks as a service to its customers and may be used for informational purposes only by the customer.
Skyworks assumes no responsibility for errors or omissions in these materials or the information contained herein. Skyworks may change its documentation,
products, services, specifications or product descriptions at any time, without notice. Skyworks makes no commitment to update the materials or
information and shall have no responsibility whatsoever for conflicts, incompatibilities, or other difficulties arising from any future changes.
No license, whether express, implied, by estoppel or otherwise, is granted to any intellectual property rights by this document. Skyworks assumes no liability
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Skyworks products are not intended for use in medical, lifesaving or life-sustaining applications, or other equipment in which the failure of the Skyworks
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Customers are responsible for their products and applications using Skyworks products, which may deviate from published specifications as a result of
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Skyworks, the Skyworks symbol, Sky5®, SkyOne®, SkyBlue™, Skyworks Green™, Clockbuilder®, DSPLL®, ISOmodem®, ProSLIC®, and SiPHY® are trademarks or
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