S i 5 3 5 0 A -B
F ACTORY - P R O G R A M M A B L E A NY - F R E Q U E N C Y C M O S
C L O C K G E N E R ATO R
Features
https://www.skyworksinc.com/Products/Ti
ming/CMOS-Clock-Generators
Generates up to 8 non-integer-related
frequencies from 2.5 kHz to 200 MHz
Exact frequency synthesis at each
output (0 ppm error)
Glitchless frequency changes
Low output period jitter: < 70 ps pp, typ
Configurable Spread Spectrum
selectable at each output
User-configurable control pins:
Output Enable (OEB_0/1/2)
Power Down (PDN)
Frequency Select (FS_0/1)
Spread Spectrum Enable (SSEN)
Supports static phase offset
Rise/fall time control
10-MSOP
Operates from a low-cost, fixed
frequency crystal: 25 or 27 MHz
Separate voltage supply pins provide
level translation:
Core VDD: 1.8 V, 2.5 V or 3.3 V
Output VDDO: 1.8 V, 2.5 V or 3.3 V
Excellent PSRR eliminates external
power supply filtering
Very low power consumption
(25 mA core, typ)
Available in 3 packages types:
10-MSOP: 3 outputs
16-QFN (3x3 mm): 4 output
20-QFN (4x4 mm): 8 output
PCIE Gen 1 compatible
Supports HCSL jitter compatible
swing
16-QFN
Applications
HDTV, DVD/Blu-ray, set-top box
Audio/video equipment, gaming
Printers, scanners, projectors
Handheld instrumentation
Residential gateways
Networking/communication
Servers, storage
XO replacement
20-QFN
Description
The Si5350A is a highly-flexible, user-definable custom clock generator that is ideally
suited for replacing crystals and crystal oscillators in cost-sensitive applications.
Based on a PLL + high resolution fractional divider MultiSynthTM architecture, the
Si5350A can generate any frequency up to 200 MHz on each of its outputs with
0 ppm error. Spread spectrum is selectable (on/off) on any of the outputs. Custom
Si5350A configurations can be created using ClockBuilder Pro.
Ordering Information:
See page 22
Functional Block Diagrams
Si5350A (20-QFN)
XA
Si5350A (10-MSOP)
Si5350A (16-QFN)
VDDO
XA
XA
OSC
PLL
A
MultiSynth 0
PLL
B
P0
Control
Logic
OSC
CLK0
PLL
A
XB
XB
P1
OSC
MultiSynth 1
MultiSynth 2
PLL
B
CLK1
CLK2
P0
P1
P2
P3
Control
Logic
MultiSynth
0
R0
VDDOA
CLK0
MultiSynth
1
R1
VDDOB
CLK1
MultiSynth
2
R2
VDDOC
CLK2
P0
MultiSynth
3
R3
VDDOD
CLK3
P1
PLL
A
XB
PLL
B
P2
P3
P4
Control
Logic
MultiSynth
0
VDDOA
MultiSynth
1
CLK1
MultiSynth
2
MultiSynth
3
MultiSynth
4
MultiSynth
5
MultiSynth
6
MultiSynth
7
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CLK0
VDDOB
CLK2
CLK3
VDDOC
CLK4
CLK5
VDDOD
CLK6
CLK7
�Si5350A-B
1. Ordering Guide
Table 1. Complete Si5350/51 Clock Generator Family
Part Number
I2C or Pin Frequency Reference
Programmed?
Outputs
Data Sheet
Si5351A-B-GT
I2C
XTAL only
Blank
3
Si5351A/B/C-B
Si5351A-B-GM1
I2C
XTAL only
Blank
4
Si5351A/B/C-B
Si5351B-B-GM1
2
I C
XTAL and/or Voltage
Blank
4
Si5351A/B/C-B
Si5351C-B-GM1
I2C
XTAL and/or CLKIN
Blank
4
Si5351A/B/C-B
Si5351A-B-GM
I2C
XTAL only
Blank
8
Si5351A/B/C-B
Si5351B-B-GM
I2C
XTAL and/or Voltage
Blank
8
Si5351A/B/C-B
Si5351C-B-GM
I2C
XTAL and/or CLKIN
Blank
8
Si5351A/B/C-B
Si5351A-Bxxxxx-GT
I2C
XTAL only
Factory Preprogrammed
3
Si5351A/B/C-B
Si5351A-Bxxxxx-GM1
I2C
XTAL only
Factory Preprogrammed
4
Si5351A/B/C-B
Si5351B-Bxxxxx-GM1
I2C
XTAL and/or Voltage
Factory Preprogrammed
4
Si5351A/B/C-B
Si5351C-Bxxxxx-GM1
I2C
XTAL and/or CLKIN
Factory Preprogrammed
4
Si5351A/B/C-B
Si5351A-Bxxxxx-GM
I2C
XTAL only
Factory Preprogrammed
8
Si5351A/B/C-B
Si5351B-Bxxxxx-GM
I2C
XTAL and/or Voltage
Factory Preprogrammed
8
Si5351A/B/C-B
Si5351C-Bxxxxx-GM
I2C
XTAL and/or CLKIN
Factory Preprogrammed
8
Si5351A/B/C-B
Si5350A-Bxxxxx-GT
Pin
XTAL only
Factory Preprogrammed
3
Si5350A-B
Si5350A-Bxxxxx-GM1
Pin
XTAL only
Factory Preprogrammed
4
Si5350A-B
Si5350A-Bxxxxx-GM
Pin
XTAL only
Factory Preprogrammed
8
Si5350A-B
Si5350B-Bxxxxx-GT
Pin
XTAL and/or Voltage
Factory Preprogrammed
3
Si5350B-B
Si5350B-Bxxxxx-GM1
Pin
XTAL and/or Voltage
Factory Preprogrammed
4
Si5350B-B
Si5350B-Bxxxxx-GM
Pin
XTAL and/or Voltage
Factory Preprogrammed
8
Si5350B-B
Si5350C-Bxxxxx-GT
Pin
XTAL and/or CLKIN
Factory Preprogrammed
3
Si5350C-B
Si5350C-Bxxxxx-GM1
Pin
XTAL and/or CLKIN
Factory Preprogrammed
4
Si5350C-B
Si5350C-Bxxxxx-GM
Pin
XTAL and/or CLKIN
Factory Preprogrammed
8
Si5350C-B
2
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�Si5350A-B
2. Technical Support Resources
Table 2. Technical Support Resources
Resource
Si5350/51 Frequently Asked Questions
ClockBuilder Pro (CBPro) Software
Si535x Development Kits
URL
https://www.skyworksinc.com/en/Products/Timing
https://www.skyworksinc.com/en/Application-Pages/ClockbuilderPro-Software
https://www.skyworksinc.com/en/Products/Timing/EvaluationKits/si535x-b20qfn-evb-evaluation-kit
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�Si5350A-B
TABLE O F C ONTENTS
Section
Page
1. Ordering Guide . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2
2. Technical Support Resources . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3
3. Electrical Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5
4. Typical Application . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11
4.1. Si5350A Replaces Multiple Clocks and XOs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11
4.2. Applying a Reference Clock at XTAL Input . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11
4.3. HCSL Compatible Outputs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12
5. Functional Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
6. Configuring the Si5350A . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .14
6.1. Crystal Inputs (XA, XB) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14
6.2. Output Clocks (CLK0–CLK7) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14
6.3. Programmable Control Pins (P0–P4) Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15
6.4. Design Considerations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18
7. Pin Descriptions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19
7.1. 20-Pin QFN . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .19
7.2. 16-Pin QFN . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .20
7.3. 10-Pin MSOP . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21
8. Ordering Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22
9. Packaging . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23
9.1. 20-Pin QFN Package Outline . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23
9.2. Land Pattern: 20-Pin QFN . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25
9.3. 16-Pin QFN Package Outline . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 27
9.4. Land Pattern: 16-Pin QFN . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 29
9.5. 10-pin MSOP Package Outline . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 31
9.6. Land Pattern: 10-Pin MSOP . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 33
10. Top Marking . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .35
10.1. 20-Pin QFN Top Marking . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 35
10.2. Top Marking Explanation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 35
10.3. 16-Pin QFN Top Marking . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36
10.4. Top Marking Explanation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36
10.5. 10-Pin MSOP Top Marking . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 37
10.6. Top Marking Explanation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 37
Revision History . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 38
Contact Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .39
4
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�Si5350A-B
3. Electrical Specifications
Table 3. Recommended Operating Conditions
Parameter
Ambient Temperature
Symbol
TA
Test Condition
VDD
Core Supply Voltage
VDDOx
Output Buffer Voltage
Min
–40
Typ
25
Max
85
Unit
°C
1.71
1.8
1.89
V
2.25
2.5
2.75
V
3.0
3.3
3.60
V
1.71
1.8
1.89
V
2.25
2.5
2.75
V
3.0
3.3
3.60
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. VDD
and VDDOx can be operated at independent voltages. Power supply sequencing for VDD and VDDOx requires that all
VDDOx be powered up either before or at the same time as VDD.
Table 4. DC Characteristics
(VDD = 1.8 V ±5%, 2.5 V ±10%, or 3.3 V ±10%, TA = –40 to 85 °C)
Parameter
Symbol
Test Condition
Min
Typ
Max
Unit
IDD
Enabled 3 outputs
—
20
30
mA
Enabled 4 outputs
—
21
32
mA
Enabled 8 outputs
—
25
40
mA
Power Down (PDN = VDD)
—
—
50
µA
IDDOx
CL = 5 pF
—
2.2
5.6
mA
IP1-P4
Pins P1, P2, P3, P4
VP1-P4 < 3.6 V
—
—
10
µA
IP0
Pin P0
—
—
30
µA
ZOI
3.3 V VDDO, default high
drive.
—
50
—
Core Supply Current*
Output Buffer Supply
Current (Per Output)*
Input Current
Output Impedance
*Note: Output clocks less than or equal to 100 MHz.
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Table 5. AC Characteristics
(VDD = 1.8 V ±5%, 2.5 V ±10%, or 3.3 V ±10%, TA = –40 to 85 °C)
Parameter
Symbol
Test Condition
Min
Typ
Max
Unit
Powerup Time
TRDY
From VDD = VDDmin to valid output
clock, CL = 5 pF, fCLKn > 1 MHz
—
2
10
ms
Powerup Time, PLL Bypass Mode
TBYP
From VDD = VDDmin to valid output
clock, CL = 5 pF, fCLKn > 1 MHz
—
0.5
1
ms
Output Enable Time
TOE
From OEB assertion to valid clock
output, CL = 5 pF, fCLKn > 1 MHz
—
—
10
µs
TFREQ
fCLKn > 1 MHz
—
—
10
µs
SSDEV
Down spread.
Selectable in 0.1% steps.
–0.1
—
–2.5
%
Center spread.
Selectable in 0.1% steps.
±0.1
—
±1.5
%
30
31.5
33
kHz
Output Frequency Transition Time
Spread Spectrum Frequency
Deviation
Spread Spectrum Modulation Rate
SSMOD
Table 6. Input Characteristics
(VDD = 1.8 V ±5%, 2.5 V ±10%, or 3.3 V ±10%, TA = –40 to 85 °C)
Parameter
Crystal Frequency
P0-P4 Input Low Voltage
P0-P4 Input High Voltage
Symbol
Min
Typ
Max
Unit
fXTAL
25
—
27
MHz
VIL_P0-4
–0.1
—
0.3 x VDD
V
VDD = 2.5 V or 3.3 V
0.7 x VDD
—
3.60
V
VDD = 1.8 V
0.8 x VDD
—
3.60
V
VIH_P0-4
Test Condition
Table 7. Output Characteristics
(VDD = 1.8 V ±5%, 2.5 V ±10%, or 3.3 V ±10%, TA = –40 to 85 °C)
Parameter
Symbol
Test Condition
Min
Typ
Max
Unit
0.0025
—
200
MHz
Frequency Range1
FCLK
Load Capacitance
CL
FCLK < 100 MHz
—
—
15
pF
DC
FCLK < 160 MHz, Measured at VDD/2
45
50
55
%
FCLK > 160 MHz, Measured at VDD/2
40
50
60
%
Duty Cycle
Notes:
1. Only two unique frequencies above 112.5 MHz can be simultaneously output.
2. Measured over 10k cycles. Jitter is only specified at the default high drive strength (50 output impedance).
3. Jitter is highly dependent on device frequency configuration. Specifications represent a “worst case, real world”
frequency plan; actual performance may be substantially better. Three-output 10MSOP package measured with clock
outputs of 74.25, 24.576, and 48 MHz. Eight-output 20QFN package measured with clock outputs of 33.33, 74.25, 27,
24.576, 22.5792, 28.322, 125, and 48 MHz. Four-output, 16-QFN package measured with clock outputs of 33.333, 27,
28.322, and 48 MHz.
6
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Table 7. Output Characteristics (Continued)
(VDD = 1.8 V ±5%, 2.5 V ±10%, or 3.3 V ±10%, TA = –40 to 85 °C)
Parameter
Symbol
Test Condition
Min
Typ
Max
Unit
Rise/Fall Time
tr/tf
20%–80%, CL = 5 pF
—
1
1.5
ns
Output High Voltage
VOH
VDD – 0.6
—
—
V
Output Low Voltage
VOL
—
—
0.6
V
16, 20-QFN, 4 outputs running,
1 per VDDO
—
40
95
ps pkpk
10-MSOP or 20-QFN,
all outputs running
—
70
155
16, 20-QFN, 4 outputs running,
1 per VDDO
—
50
90
10-MSOP or 20-QFN,
all outputs running
—
70
150
JPER
Period Jitter2,3
JCC
Cycle-to-Cycle Jitter2,3
ps pk
Notes:
1. Only two unique frequencies above 112.5 MHz can be simultaneously output.
2. Measured over 10k cycles. Jitter is only specified at the default high drive strength (50 output impedance).
3. Jitter is highly dependent on device frequency configuration. Specifications represent a “worst case, real world”
frequency plan; actual performance may be substantially better. Three-output 10MSOP package measured with clock
outputs of 74.25, 24.576, and 48 MHz. Eight-output 20QFN package measured with clock outputs of 33.33, 74.25, 27,
24.576, 22.5792, 28.322, 125, and 48 MHz. Four-output, 16-QFN package measured with clock outputs of 33.333, 27,
28.322, and 48 MHz.
Table 8. 25 MHz Crystal Requirements1,2
Parameter
Symbol
Min
Typ
Max
Unit
Crystal Frequency
fXTAL
—
25
—
MHz
Load Capacitance
CL
6
—
12
pF
rESR
—
—
150
dL
100
—
—
µW
Equivalent Series Resistance
Crystal Max Drive Level
Notes:
1. Crystals which require load capacitances of 6, 8, or 10 pF should use the device’s internal load capacitance for
optimum performance. A crystal with a 12 pF load capacitance requirement should use a combination of the internal
10 pF load capacitance in addition to external 2 pF load capacitance (e.g., by using 4pF capacitors on XA and XB).
ClockBuilder Pro can be used to configure the internal load capacitors.
2. Refer to “AN551: Crystal Selection Guide” for more details.
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Table 9. 27 MHz Crystal Requirements1,2
Parameter
Symbol
Min
Typ
Max
Unit
Crystal Frequency
fXTAL
—
27
—
MHz
Load Capacitance
CL
6
—
12
pF
Equivalent Series Resistance
rESR
—
—
150
Crystal Max Drive Level Spec
dL
100
—
—
µW
Notes:
1. Crystals which require load capacitances of 6, 8, or 10 pF should use the device’s internal load capacitance for
optimum performance. A crystal with a 12 pF load capacitance requirement should use a combination of the internal 10
pF load capacitance in addition to external 2 pF load capacitance (e.g., by using 4pF capacitors on XA and XB).
ClockBuilder Pro can be used to configure the internal load capacitors.
2. Refer to “AN551: Crystal Selection Guide” for more details.
Table 10. Thermal Characteristics (2-Layer Board)
Parameter
Symbol
Test Condition
Package
Value
Unit
JA
Still Air1
10-MSOP
150
°C/W
16-QFN
103
°C/W
20-QFN
74.9
°C/W
10-MSOP
82
°C/W
16-QFN
37
°C/W
20-QFN
9.94
°C/W
10-MSOP
0.84
°C/W
16-QFN
4.26
°C/W
20-QFN
1.3
°C/W
Thermal Resistance
Junction to Ambient
ΨJB
Still Air1
Thermal Resistance
Junction to Board
ΨJT
Thermal Resistance
Junction to Top Center
Still Air1
Notes:
1. Based on environment and board designed per JESD51-2A and JESD51-3.
8
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Table 11. Thermal Characteristics (4-Layer Board)
Parameter
Symbol
Test Condition
Package
Value
Unit
JA
Still Air1
10-MSOP
126
°C/W
16-QFN
65
°C/W
20-QFN
41
°C/W
10-MSOP
84
°C/W
16-QFN
48
°C/W
20-QFN
16
°C/W
10-MSOP
83
°C/W
16-QFN
31
°C/W
20-QFN
8.1
°C/W
10-MSOP
0.74
°C/W
16-QFN
3.8
°C/W
20-QFN
0.98
°C/W
Thermal Resistance
Junction to Ambient
JB
Thermal Resistance
Junction to Board
ΨJB
ΨJT
Junction to Board2
Still Air1
Still Air1
Thermal Resistance
Junction to Top Center
Notes:
1. Based on environment and board designed per JESD51-2A, JESD51-5, and JESD51-7.
2. Based on conditions set in JESD51-8.
Table 12. Thermal Characteristics (Junction-to-Case)
Parameter
Thermal Resistance
Junction to Case1
Symbol
Test Condition
Package
Value
Unit
JC
Still Air
10-MSOP
36
°C/W
16-QFN
82
°C/W
20-QFN
51
°C/W
Notes:
1. Based on board designed per JESD51-1 (Top center of packages used).
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Table 13. Absolute Maximum Ratings1
Parameter
DC Supply Voltage
Input Voltage
Symbol
Test Condition
VDD_max
Value
Unit
–0.5 to 3.8
V
VIN_P1-4
Pins P1, P2, P3, P4
–0.5 to 3.8
V
VIN_P0
P0
–0.5 to (VDD+0.3)
V
VIN_XA/B
Pins XA, XB
–0.5 to 1.3 V
V
Junction Temperature
TJ
–55 to 150
°C
Soldering Temperature
(Pb-free profile)2
TPEAK
260
°C
TP
20–40
Sec
Soldering Temperature Time at
TPEAK (Pb-free profile)2
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 absolute maximum
rating conditions for extended periods may affect device reliability.
2. The device is compliant with JEDEC J-STD-020.
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4. Typical Application
4.1. Si5350A Replaces Multiple Clocks and XOs
The Si5350A is a user-definable custom clock generator that is ideally suited for replacing crystals and crystal
oscillators in cost-sensitive applications. An example application is shown in Figure 1.
74.25 MHz or
74.25
MHz
1.001
33.3333 MHz
CPU
XA
27 MHz
Video
Processor
CLK2
CLK1
CLK0
27 MHz
Si5350A
CLK3
24.576 MHz
CLK4
22.5792 MHz
Audio
Processor
XB
Ethernet
PHY
125 MHz
CLK5
48 MHz
CLK6
CLK7
USB
Controller
28.322 MHz
HDMI
Port
Figure 1. Example of an Si5350A in an Audio/Video Application
4.2. Applying a Reference Clock at XTAL Input
The Si5350A can be driven with a clock signal through the XA input pin.
VIN = 1 VPP
25/27 MHz
XA
0.1 µF
XB
PLLA
Multi
Synth
0
Multi
Synth
1
OSC
PLLB
Note: Float the XB input while driving
the XA input with a clock
Multi
Synth
N
Figure 2. Si5350A Driven by a Clock Signal
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4.3. HCSL Compatible Outputs
The Si5350A can be configured to support HCSL compatible swing when the VDDO of the output pair of interest is
set to 2.5 V (i.e., VDDOA must be 2.5 V when using CLK0/1; VDDOB must be 2.5 V for CLK2/3 and so on).
The circuit in Figure 3 must be applied to each of the two clocks used, and one of the clocks in the pair must also
be inverted to generate a differential pair. This functionality is only supported for the Si5350A in 10-MSOP or 20QFN packages.
PLLA
Multi
Synth
0
ZO = 50
0
R1
511
240
OSC
PLLB
Multi
Synth
1
ZO = 50
0
HCSL
CLKIN
R1
511
240
Multi
Synth
N
R2
R2
Note: The complementary -180 degree
out of phase output clock is generated
using the INV function
Figure 3. Si5350A Output is HCSL Compatible
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5. Functional Description
The Si5350A’s synthesis architecture consists of two high-frequency PLLs in addition to one high-resolution
fractional MultiSynthTM divider per output. Block diagrams of the 3-, 4-, and 8-output versions are shown in
Figure 4. This unique architecture allows the Si5350A to simultaneously generate up to eight independent, noninteger-related frequencies. In addition, some MultiSynthTM dividers are configurable with two different frequencies
(F1_x, F2_x). This allows a pin-controlled, glitchless frequency change at the corresponding output (CLK0 to
CLK2).
10-MSOP
XA
VDDO
VDD
MultiSynth 0
F1_0
OSC
XB
PLL
A
FS
MultiSynth 1
F1_1
PLL
B
FS
P0
P1
F2_0
F2_1
MultiSynth 2
F1_2
Control
Logic
FS
F2_2
R0
CLK0
R1
CLK1
R2
CLK2
MultiSynth 3
GND
VDD
16-QFN
MultiSynth 0
F1_0
XA
FS
OSC
XB
PLL
A
F2_0
MultiSynth 1
F1_1
PLL
B
FS
F2_1
VDDOA
R0
VDDOB
R1
P1
P2
F1_2
Control
Logic
R2
F1_3
MultiSynth 4
CLK2
VDDOD
MultiSynth 3
P3
CLK1
VDDOC
MultiSynth 2
P0
CLK0
R3
CLK3
GND
VDD
20-QFN
MultiSynth 0
F1_0
FS
OSC
PLL
A
PLL
B
F2_0
MultiSynth 1
F1_1
FS
F2_1
MultiSynth 2
F1_2
FS
F2_2
VDDOA
R0
CLK1
R1
VDDOB
R2
MultiSynth 3
F1_3
CLK3
VDDOC
R4
MultiSynth 5
P0
F1_5
CLK2
R3
MultiSynth 4
F1_4
CLK0
CLK4
CLK5
R5
P1
P2
Control
Logic
P4
R6
MultiSynth 7
F1_7
XB
XA
VDDOD
MultiSynth 6
F1_6
P3
CLK6
CLK7
R7
GND
Figure 4. Block Diagrams of 3-Output, 4-Output, and 8-Output Si5350A Devices
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6. Configuring the Si5350A
The Si5350A is a factory-programmed custom clock generator that is user-definable with ClockBuilder Pro. The
ClockBuilder Pro utility provides a simple graphical interface that allows the user to enter input and output
frequencies along with other custom features as described in the following sections. All synthesis calculations are
automatically performed by ClockBuilder Pro to ensure an optimum configuration. A unique part number is
assigned to each custom configuration.
6.1. Crystal Inputs (XA, XB)
The Si5350A uses a fixed-frequency standard AT-cut crystal as a reference to synthesize its output clocks.
6.1.1. Crystal Frequency
The Si5350A can operate using either a 27 MHz or a 25 MHz crystal.
6.1.2. Internal XTAL Load Capacitors
Internal load capacitors are provided to eliminate the need for external components when connecting a XTAL to the
Si5350A. The total internal XTAL load capacitance (CL) can be selected to be 0, 6, 8, or 10 pF. XTALs with
alternate load capacitance requirements are supported by ClockBuilder Pro using additional external load
capacitance 2 pF (e.g., by using 4 pF capacitors on XA and XB) as shown in Figure 5.
XA
XB
Optional additional
external load
capacitance
(< 2 pF)
Optional internal
load capacitance
0, 6, 8,10 pF
Figure 5. External XTAL with Optional Load Capacitors
6.2. Output Clocks (CLK0–CLK7)
The Si5350A is orderable as a 3-output (10-MSOP), 4-output (16-QFN), or 8-output (20-QFN) clock generator.
Output clocks CLK0-2 for 20-QFN and 10-MSOP devices and CLK0-1 for 16-QFN devices can be ordered with two
clock frequencies (F1_x, F2_x), which are selectable with the optional frequency select pins (FS0/1). See “6.3.3.
Frequency Select (FS_0, FS_1)” for more details on the operation of the frequency select pins.
6.2.1. Output Clock Frequency
Outputs can be configured at any frequency from 2.5 kHz up to 200 MHz. However, only two unique frequencies
above 112.5 MHz can be simultaneously output. For example, 125 MHz (CLK0), 130 MHz (CLK1), and 150 MHz
(CLKx) is not allowed. Note that multiple copies of frequencies above 112.5 MHz can be provided, for example,
125 MHz could be provided on four outputs (CLKS0-3) simultaneously with 130 MHz on four different outputs
(CLKS4-7).
6.2.2. .Spread Spectrum
Spread spectrum can be enabled on any of the clock outputs that use PLLA as its reference. Spread spectrum is
useful for reducing electromagnetic interference (EMI). Enabling spread spectrum on an output clock modulates its
frequency, which effectively reduces the overall amplitude of its radiated energy. Note that spread spectrum is not
available on clocks synchronized to PLLB.
The Si5350A supports several levels of spread spectrum allowing the designer to choose an ideal compromise
between system performance and EMI compliance. An optional spread-spectrum enable pin (SSEN) is
configurable to enable or disable the spread spectrum feature. See “6.3.1. Spread Spectrum Enable (SSEN)” for
details.
14
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Reduced
Amplitude
and EMI
Reduced
Amplitude
and EMI
Center
Frequency
Amplitude
fc
fc
fc
No Spread
Spectrum
Center Spread
Down Spread
Figure 6. Available Spread Spectrum Profiles
6.2.3. Invert/Non-Invert
By default, each of the output clocks are generated in phase (non-inverted) with respect to each other. An option to
invert any of the clock outputs is also available.
6.2.4. Output State When Disabled
There are up to three output enable pins configurable on the Si5350A as described in “6.3.4. Output Enable
(OEB_0, OEB_1, OEB_2)” . The output state when disabled for each of the outputs is configurable as output high,
output low, or high-impedance.
6.2.5. Powering Down Unused Outputs
Unused clock outputs can be completely powered down to conserve power.
6.3. Programmable Control Pins (P0–P4) Options
Up to five programmable control pins (P0-P4) are configurable allowing direct pin control of the following features:
6.3.1. Spread Spectrum Enable (SSEN)
An optional control pin allows disabling the spread spectrum feature for all outputs that were configured with
spread spectrum enabled. Hold SSEN low to disable spread spectrum. The SSEN pin provides a convenient
method of evaluating the effect of using spread spectrum clocks during EMI compliance testing.
6.3.2. Power Down (PDN)
An optional power down control pin allows a full shutdown of the Si5350A to minimize power consumption when its
output clocks are not being used. The Si5350A is in normal operation when the PDN pin is held low and is in power
down mode when held high. Power consumption when the device is in power down mode is indicated in Table 4 on
page 5.
6.3.3. Frequency Select (FS_0, FS_1)
The Si5350A offers the option of configuring up to two frequencies per clock output on CLK0-2 for 20-QFN and 10MSOP devices and CLK0-1 for 16-QFN devices. This is a useful feature for applications that need to support more
than one clock rate on the same output. An example of this is shown in Figure 7 where the FS pins selects which
frequency is generated from the clock output: F1_0 is generated when FS is set low, and F2_0 is generated when
FS is set high.
27 MHz
FS0
Bit Level
Output Frequency Selected
0
F1_0:
74.25 MHz
1
F2_0:
74.25
MHz
1.001
XA
FS0
74.25 MHz
XB
Si5350A CLK0
or
74.25
MHz
1.001
Video
Processor
Figure 7. Example of Generating Two Clock Frequencies from the Same Clock Output
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Up to two frequency select pins are available on the Si5350A. Each of the frequency select pins can be linked to
CLK0, 1, and 2 for 20-QFN and 10-MSOP devices. 16-QFN devices allow frequency select on CLK0 and CLK1.
See Figure 8 for an example of a potential 20-QFN frequency select configuration. In this example, FS_0 is linked
to control clock frequency selection on CLK0; FS_1 can be used to control clock frequency selection on CLK1 and
CLK2. Any other combination is also possible. The frequency select feature is not available for CLK3/4/5/6/7 in 20QFN devices or for CLK2/3 in 16-QFN devices.
The Si5350A uses control circuitry to ensure that frequency changes are glitchless. This ensures that the clock
always completes its last cycle before starting a new clock cycle of a different frequency.
Customizable FS Control
FS
FS
FS_0 Output Frequency
0
F1_0
1
F2_0
FS_0
FS
Glitchless Frequency Changes
MultiSynth 0
CLK0
MultiSynth 1
CLK1
MultiSynth 2
CLK2
New frequency starts
at its leading edge
Frequency_A
CLK3
Frequency_B
Frequency_A
CLKx
FS_1 Output Frequency
0
F1_1, F1_2
1
F2_1, F2_2
CLK4
FS_1
Cannot be controlled
by FS pins
CLK5
CLK6
Full cycle completes before
changing to a new frequency
CLK7
Figure 8. Example Configuration of a Pin-Controlled Frequency Select (FS)
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6.3.4. Output Enable (OEB_0, OEB_1, OEB_2)
Up to three output enable pins (OEB_0/1/2) are available on the Si5350A. Each OEB pin can be linked to any of
the output clocks. In the example shown in Figure 9, OEB_0 is linked to control CLK0, CLK3, and CLK5; OEB_1 is
linked to control CLK6 and CLK7, and OEB_2 is linked to control CLK1, CLK2, CLK4, and CLK5. Any other
combination is also possible. If more than one OEB pin is linked to the same CLK output, the pin forcing a disable
state will be dominant. Clock outputs are enabled when the OEB pin is held low.
The output enable control circuitry ensures glitchless operation by starting the output clock cycle on the first leading
edge after OEB is asserted (OEB = low). When OEB is released (OEB = high), the clock is allowed to complete its
full clock cycle before going into a disabled state. This is shown in Figure 9. When disabled, the output state is
configurable as disabled high, disabled low, or disabled in high-impedance.
Customizable OEB Control
Glitchless Output Enable
CLK0
OEB_0
0
1
Output State
CLK Enabled
CLK Disabled
OEB
OEB_0
CLK1
OEB
Clock starts on the
first leading edge
CLK2
OEB
OEB_1
0
1
Output State
CLK Enabled
CLK Disabled
Clock continues until
cycle is complete
CLK3
OEB_1
CLKx
OEB
CLK4
OEB
OEBx
CLK5
OEB
OEB_2
0
1
Output State
CLK Enabled
CLK Disabled
OEB_2
CLK6
OEB
CLK7
OEB
Figure 9. Example Configuration of a Pin-Controlled Output Enable
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6.4. Design Considerations
The Si5350A is a self-contained clock generator that requires very few external components. The following general
guidelines are recommended to ensure optimum performance.
6.4.1. Power Supply Decoupling/Filtering
The Si5350A has built-in power supply filtering circuitry to help keep the number of external components to a
minimum. All that is recommended is one 0.1 to 1.0 µF decoupling capacitor per power supply pin. This capacitor
should be mounted as close to the VDD and VDDO pins as possible without using vias.
6.4.2. Power Supply Sequencing
The VDD and VDDOx (i.e., VDDO0, VDDO1, VDDO2, VDDO3) power supply pins have been separated to allow
flexibility in output signal levels. Power supply sequencing for VDD and VDDOx requires that all VDDOx be
powered up either before or at the same time as VDD. Unused VDDOx pins should be tied to VDD.
6.4.3. External Crystal
The external crystal should be mounted as close to the pins as possible using short PCB traces. The XA and XB
traces should be kept away from other high-speed signal traces. See “AN551: Crystal Selection Guide” for more
details.
6.4.4. External Crystal Load Capacitors
The Si5350A provides the option of using internal and external crystal load capacitors. If external load capacitors
are used, they should be placed as close to the XA/XB pads as possible. See “AN551: Crystal Selection Guide” for
more details.
6.4.5. Unused Pins
Unused control pins (P0–P4) should be tied to GND.
Unused XA/XB pins should be left floating. Refer to "4.2. Applying a Reference Clock at XTAL Input" on page 9
when using XA as a clock input pin.
Unused output pins (CLK0, CLK7) should be left floating.
Unused VDDOx pins should be tied to VDD.
6.4.6. Trace Characteristics
The Si5350A features various output drive strength settings. It is recommended to configure the trace
characteristics as shown in Figure 10 when the default high output drive setting is used.
ZO = 50 ohms
R = 0 ohms
CLK
(Optional resistor for
EMI management)
Figure 10. Recommended Trace Characteristics with Default Drive Strength Setting
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7. Pin Descriptions
XA
1
XB
2
16 CLK6
17 CLK5
18 VDDOC
19 CLK4
20 VDD
7.1. 20-Pin QFN
15 CLK7
GND
PAD
14
VDDOD
13
CLK0
CLK1
VDDOB 10
9
11 VDDOA
CLK2
5
8
P2
CLK3
12
7
4
P4
P1
6
3
P3
P0
Figure 11. Si5350A 20-Pin QFN Top View
Pin Name
Pin Number
Pin Type*
XA
1
I
Input pin for external XTAL.
Function
XB
2
I
Input pin for external XTAL.
CLK0
13
O
Output Clock 0.
CLK1
12
O
Output Clock 1.
CLK2
9
O
Output Clock 2.
CLK3
8
O
Output Clock 3.
CLK4
19
O
Output Clock 4.
CLK5
17
O
Output Clock 5.
CLK6
16
O
Output Clock 6.
CLK7
15
O
Output Clock 7.
P0
3
I
User configurable input pin 0. See Section 6.3.
P1
4
I
User configurable input pin 1. See Section 6.3.
P2
5
I
User configurable input pin 2. See Section 6.3.
P3
6
I
User configurable input pin 3. See Section 6.3.
P4
7
I
User configurable input pin 4. See Section 6.3.
VDD
20
P
Core voltage supply pin. See Section 6.4.2.
VDDOA
11
P
Output voltage supply pin for CLK0 and CLK1. See Section 6.4.2.
VDDOB
10
P
Output voltage supply pin for CLK2 and CLK3. See Section 6.4.2.
VDDOC
18
P
Output voltage supply pin for CLK4 and CLK5. See Section 6.4.2.
VDDOD
14
P
Output voltage supply pin for CLK6 and CLK7. See Section 6.4.2.
GND
Center Pad
P
Ground.
*Note: I = Input, O = Output, P = Power
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13 CLK2
14 VDDOC
15 GND
16 VDD
7.2. 16-Pin QFN
XA 1
12 CLK3
XB 2
11 VDDOD
GND
PAD
P0 3
10 CLK0
P1 4
5
6
7
8
P2
P3
CLK1
VDDOB
9 VDDOA
Figure 12. Si5350A 16-Pin QFN Top View
Pin Name
Pin Number
Pin Type*
Function
XA
1
I
Input pin for external crystal.
XB
2
I
Input pin for external crystal.
P0
3
I
User configurable input P0. See Section 6.3.
P1
4
I
User configurable input P1. See Section 6.3.
P2
5
I
User configurable input P2. See Section 6.3.
P3
6
I
User configurable input P3. See Section 6.3.
CLK1
7
O
Output Clock 1.
VDDOB
8
P
Output voltage supply pin for CLK1. See Section 6.4.2.
VDDOA
9
P
Output voltage supply pin for CLK0. See Section 6.4.2.
CLK0
10
O
Output Clock 0.
VDDOD
11
P
Output voltage supply pin for CLK3. See Section 6.4.2.
CLK3
12
O
Output Clock 3.
CLK2
13
O
Output Clock 2.
VDDOC
14
P
Output voltage supply pin for CLK2. See Section 6.4.2.
GND
15
GND
VDD
16
P
GND PAD
Center Pad
GND
Ground.
Core voltage supply pin. See Section 6.4.2.
Ground pad. Use multiple vias to ensure a solid path to Ground.
*Note: I = Input, O = Output, P = Power; Input pins are not internally pulled up.
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7.3. 10-Pin MSOP
VDD
1
10
CLK0
XA
2
9
CLK1
XB
3
8
GND
P0
4
7
VDDO
P1
5
6
CLK2
Figure 13. Si5350A 10-Pin MSOP Top View
Pin Name
Pin
Number
Pin Type*
XA
2
I
Input pin for external XTAL.
XB
3
I
Input pin for external XTAL.
CLK0
10
O
Output clock 0.
CLK1
9
O
Output clock 1.
CLK2
6
O
Output clock 2.
P0
4
I
User configurable input pin 0. See Section 6.3.
P1
5
I
User configurable input pin 1. See Section 6.3.
VDD
1
P
Core voltage supply pin. See Section 6.4.2.
VDDO
7
P
Output clock voltage supply pin for CLK0, CLK1, and CLK2. See Section
6.4.2.
GND
8
P
Ground.
Function
*Note: I = Input, O = Output, P = Power
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8. Ordering Information
Factory programmed Si5350A devices can be requested through ClockBuilder Pro. A unique part number is
assigned to each custom configuration as indicated in Figure 14. Use ClockBuilder Pro to create custom part
numbers or consult a Skyworks Solutions sales representative for other custom NVM configurations.
The Si5351x-B20QFN-EVB evaluation kit, along with ClockBuilder Pro, enables easy testing of any Si5350A
frequency plan. ClockBuilder Pro makes it simple to emulate all three Si5351 packages, including the 10-MSOP,
20-QFN, and 16-QFN, on the same evaluation board.
Si5350A
BXXXXX
XXX
Blank = Coil Tape
R = Tape and Reel
GT = 10-MSOP
GM1 = 16-QFN
GM = 20-QFN
B
= Product Revision B
XXXXX = Unique Custom Code
. A five character code will be
as signed for each unique custom configuration
Evaluation Boards
Si535x-B20QFN-EVB
For evaluation of:
Si5350A-Bxxxxx-GM (20-QFN)
Si5350A-Bxxxxx-GM1 (16-QFN)
Si5350A-Bxxxxx-GT (10-MSOP)
Figure 14. Custom Clock Part Numbers
22
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9. Packaging
9.1. 20-Pin QFN Package Outline
Seating Plane
Figure 15 illustrates the package details for the Si5350A-B in a 20-pin QFN package. Table 14 lists the values for
the dimensions shown in the illustration.
C
D2
B
D
A
D2/2
A1
L
E
E2
E2/2
A
b
e
Figure 15. 20-pin QFN Package Drawing
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Table 14. Package Dimensions
Dimension
A
A1
Min
0.80
0.00
Nom
0.85
b
D
D2
e
E
E2
L
aaa
0.20
2.65
0.35
0.25
4.00 BSC
2.70
0.50 BSC
4.00 BSC
2.70
0.40
—
—
2.75
0.45
0.10
bbb
—
—
0.10
ccc
—
—
0.08
ddd
—
—
0.10
2.65
—
Max
0.90
0.05
0.30
2.75
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 JEDEC Outline MO-220, variation VGGD-5.
4. Recommended card reflow profile is per the JEDEC/IPC J-STD-020 specification for
Small Body Components.
24
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9.2. Land Pattern: 20-Pin QFN
Figure 16 shows the recommended land pattern details for the Si5350 in a 20-Pin QFN package. Table 15 lists the
values for the dimensions shown in the illustration.
Figure 16. 20-Pin QFN Land Pattern
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Table 15. PCB Land Pattern Dimensions
Symbol
Millimeters
C1
4.0
C2
4.0
E
0.50 BSC
X1
0.30
X2
2.70
Y1
0.80
Y2
2.70
Notes:
General
1. All dimensions shown are in millimeters (mm) unless otherwise noted.
2. This land pattern design is based on IPC-7351 guidelines.
Solder Mask Design
3. 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
4. A stainless steel, laser-cut and electro-polished stencil with
trapezoidal walls should be used to assure good solder paste release.
5. The stencil thickness should be 0.125 mm (5 mils).
6. The ratio of stencil aperture to land pad size should be 1:1 for all
perimeter pads.
7. A 2x2 array of 1.10 x 1.10 mm openings on 1.30 mm pitch should be
used for the center ground pad.
Card Assembly
8. A No-Clean, Type-3 solder paste is recommended.
9. The recommended card reflow profile is per the JEDEC/IPC J-STD020 specification for Small Body components.
26
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9.3. 16-Pin QFN Package Outline
Figure 17 illustrates the package details for the Si5350A-B in a 16-QFN package. Table 16 lists the values for the
dimensions shown in the illustration.
Figure 17. 16-Pin QFN Package Drawing
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Table 16. Package Dimensions
Dimension
Min
Nom
Max
A
0.80
0.85
0.90
A1
0.00
0.02
0.05
A3
b
0.20 REF.
0.18
D
D2
0.25
0.30
3.0 BSC
1.70
1.80
e
0.50 BSC
E
3.0 BSC
1.90
E2
1.70
1.80
1.90
L
0.25
0.35
0.45
K
0.20
—
—
R
0.09
—
0.14
aaa
0.15
bbb
0.10
ccc
0.10
ddd
0.05
eee
0.08
fff
0.10
Notes:
1. All dimensions shown are in millimeters (mm) unless otherwise noted.
2. Dimensioning and Tolerancing per ANSI Y14.5M-1994.
3. Recommended card reflow profile is per the JEDEC/IPC J-STD-020
specification for Small Body Components.
28
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9.4. Land Pattern: 16-Pin QFN
Figure 18 shows the recommended land pattern details for the Si5350 in a 16-QFN package. Table 17 lists the
values for the dimensions shown in the illustration.
Figure 18. 16-Pin QFN Land Pattern
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Table 17. PCB Land Pattern Dimensions
Symbol
Millimeters
C1
3.00
C2
3.00
E
0.50
X1
0.30
Y1
0.75
X2
1.80
Y2
1.80
Notes:
General
1. All dimensions shown are in millimeters (mm).
2. This land pattern design is based on IPC-7351 guidelines.
3. All dimensions shown are at Maximum Material Condition (MMC). Least Material
Condition (LMC) is calculated based on a Fabrication Allowance of 0.05 mm.
Solder Mask Design
4. 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
5. A stainless steel, laser-cut and electro-polished stencil with trapezoidal walls should
be used to assure good solder paste release.
6. The stencil thickness should be 0.125 mm (5 mils).
7. The ratio of stencil aperture to land pad size should be 1:1 for all perimeter pads.
8. A 2x2 array of 0.65 mm square openings on a 0.90 mm pitch should be used for the
center ground pad.
Card Assembly
9. A No-Clean, Type-3 solder paste is recommended.
10. The recommended card reflow profile is per the JEDEC/IPC J-STD-020
specification for Small Body components.
11. The above notes and stencil design are shared as recommendations only. A
customer or user may find it necessary to use different parameters and fine-tune
their SMT process as required for their application and tooling.
30
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9.5. 10-pin MSOP Package Outline
Figure 19 illustrates the package details for the Si5350A-B in a 10-pin MSOP package. Table 18 lists the values for
the dimensions shown in the illustration.
Figure 19. 10-pin MSOP Package Drawing
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Table 18. 10-MSOP Package Dimensions
Dimension
A
A1
A2
b
c
D
E
E1
e
L
L2
q
aaa
bbb
ccc
ddd
Min
—
0.00
0.75
0.17
0.08
0.40
0
—
—
—
—
Nom
—
—
0.85
—
—
3.00 BSC
4.90 BSC
3.00 BSC
0.50 BSC
0.60
0.25 BSC
—
—
—
—
—
Max
1.10
0.15
0.95
0.33
0.23
0.80
8
0.20
0.25
0.10
0.08
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 Solid State Outline MO-137, Variation C
4. Recommended card reflow profile is per the JEDEC/IPC J-STD-020 specification for Small Body
Components.
32
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9.6. Land Pattern: 10-Pin MSOP
Figure 20 shows the recommended land pattern details for the Si5350A-B in a 10-Pin MSOP package. Table 19
lists the values for the dimensions shown in the illustration.
Figure 20. 10-Pin MSOP Land Pattern
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Table 19. PCB Land Pattern Dimensions
Symbol
Millimeters
Min
Max
C1
4.40 REF
E
0.50 BSC
G1
3.00
—
X1
—
0.30
Y1
Z1
1.40 REF
—
5.80
Notes:
General
1. All dimensions shown are in millimeters (mm) unless otherwise noted.
2. Dimensioning and Tolerancing per ASME Y14.5M-1994.
3. This Land Pattern Design is based on the IPC-7351 guidelines.
4. All dimensions shown are at Maximum Material Condition (MMC). Least
Material Condition (LMC) is calculated based on a Fabrication
Allowance of 0.05mm.
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.
Card Assembly
9. A No-Clean, Type-3 solder paste is recommended.
10. The recommended card reflow profile is per the JEDEC/IPC J-STD020C specification for Small Body components.
34
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10. Top Marking
10.1. 20-Pin QFN Top Marking
Figure 21. 20-Pin QFN Top Marking
10.2. Top Marking Explanation
Mark Method:
Laser
Pin 1 Mark:
Filled Circle = 0.50 mm Diameter
(Bottom-Left Corner)
Font Size:
0.60 mm (24 mils)
Line 1 Mark Format
Device Part Number
Si5350
Line 2 Mark Format:
TTTTTT = Mfg Code*
Manufacturing Code from the Assembly Purchase
Order Form.
Line 3 Mark Format:
YY = Year
WW = Work Week
Assigned by the Assembly House. Corresponds to
the year and work week of the assembly date.
*Note: The code shown in the “TTTTTT” line does not correspond to the orderable part number or frequency plan. It is used
for package assembly quality tracking purposes only.
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10.3. 16-Pin QFN Top Marking
Figure 22. 16-Pin QFN Top Marking
10.4. Top Marking Explanation
Mark Method:
Laser
Pin 1 Mark:
Circle (Bottom-Left Corner)
Font Size:
0.60 mm (24 mils)
Line 1 Mark Format
Device Part Number
5350
Line 2 Mark Format:
TTTT = Mfg Code*
Manufacturing Code from the Assembly Purchase
Order Form.
Line 3 Mark Format:
YWW = Date Code
Assigned by the Assembly House.
Y = Last digit of the current year.
WW = Work week of the assembly date.
*Note: The code shown in the “TTTT” line does not correspond to the orderable part number or frequency plan. It is used for
package assembly quality tracking purposes only.
36
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10.5. 10-Pin MSOP Top Marking
Figure 23. 10-Pin MSOP Top Marking
10.6. Top Marking Explanation
Mark Method:
Laser
Pin 1 Mark:
Mold Dimple (Bottom-Left Corner)
Font Size:
0.60 mm (24 mils)
Line 1 Mark Format
Device Part Number
Si5350
Line 2 Mark Format:
TTTT = Mfg Code*
Line 2 from the “Markings” section of the Assembly
Purchase Order form.
Line 3 Mark Format:
YWW = Date Code
Assigned by the Assembly House.
Y = Last Digit of Current Year (Ex: 2013 = 3)
WW = Work Week of Assembly Date.
*Note: The code shown in the “TTTT” line does not correspond to the orderable part number or frequency plan. It is used for
package assembly quality tracking purposes only.
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REVISION HISTORY
Revision 1.2
March, 2020
Added "1. Ordering Guide" on page 2.
Updated "3. Electrical Specifications" on page 5.
Updated
Tables 5, 7, 12, and 13 to include 16-QFN parameters.
thermal characteristics tables to include Table 10 (2-Layer Board), Table 11 (4-Layer Board), and Table 12
(Junction-to-Case).
Updated
Updated "4. Typical Application" on page 11.
Updated
"4.3. HCSL Compatible Outputs" on page 12.
Updated "5. Functional Description" on page 13.
Updated "6. Configuring the Si5350A" on page 14.
Updated
"6.2. Output Clocks (CLK0–CLK7)" on page 14.
"6.3.3. Frequency Select (FS_0, FS_1)" on page 15.
Updated "6.4.5. Unused Pins" on page 18.
Updated
Updated "7. Pin Descriptions" on page 19.
Added
16-QFN information.
Updated "8. Ordering Information" on page 22.
Updated
EVB and 16-QFN information.
Updated "9. Packaging" on page 23.
Added
16-QFN information.
Revision 1.1
August, 2018
Updated "8. Ordering Information" on page 22.
Changed
“Blank = Bulk” to “Blank = Coil Tape” in Figure 14.
Revision 1.0
April, 2015
Extended frequency range from 8 MHz-160 MHz to 2.5 kHz-200 MHz.
Added 1.8 V VDD support.
Updated block diagrams for clarity.
Added complete Si5350/1 family table, Table 1.
Added top mark information.
Added land pattern drawings.
Added PowerUp Time, PLL Bypass mode, Table 5.
Clarified Down Spread step sizes in Table 5.
Updated max jitter specs (typ unchanged) in Table 7.
Clarified power supply sequencing requirement, Section 4.4.2.
Revision 0.75
October, 2012
38
Initial release.
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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!
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Portfolio
SW/HW
Quality
Support & Resources
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