Skyworks Si5338-EVB User manual
Skyworks Solutions, Inc. • Phone [781] 376-3000 • Fax [781] 376-3100 • [email protected] • www.skyworksinc.com
Rev. 1.5 • Skyworks Proprietary Information • Products and Product Information are Subject to Change Without Notice • December 14, 2021
Si5338-EVB
Si5330/34/35/38 EVALUATION BOARD USER’S GUIDE
Description
The Si5338-EVB is used for evaluating the
Si5330/34/35/38 family of any-frequency, any-output
clock generators and clock buffers.
EVB Features
Fully powered from a single USB port.
Onboard 25 MHz XTAL allows standalone
asynchronous operation on the Si5334/35/38.
GUI programmable VDD supply allows device to
operate from 3.3, 2.5, or 1.8 V.
GUI programmable VDDO supplies allow each of the
four outputs to have its own supply voltage
selectable from 3.3, 2.5, 1.8, or 1.5 V
GUI-controlled voltage, current, and power
measurements of VDD and all four VDDO supplies.
Voltage supply jumpers allow easy access for use of
external supplies or current measurements.
Input signal jumpers allow external control of pin
functions such as output enable, phase inc/dec,
frequency inc/dec, and I2C_LSB.
Si5338-EVB
2 Skyworks Solutions, Inc. • Phone [781] 376-3000 • Fax [781] 376-3100 • [email protected] • www.skyworksinc.com
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1. Functional Block Diagram
A functional block diagram of the EVB is shown in Figure 1. The MCU performs the USB to I2C conversion,
controls the voltage regulators, monitors the INTR pin, and controls the four status LEDS. It also provides control of
the eight input pins when the INx_CTRL jumpers are populated. There are five programmable voltage regulators
(VDD, VDDO0, VDDO1, VDDO2, VDDO3), which supply power to the Si533x device. VDD and VDDO jumpers
allow the option of powering the device from external supplies, or as a convenient point for measuring current. I2C
jumpers allow disconnection of the Si533x device from the I2C bus to allow external control from another I2C
master.
For the Si5334, Si5335, and Si5338 devices, the EVB is shipped with an onboard 25 MHz XTAL to allow stand-
alone asynchronous operation. For Si5335 emulation, synchronization to an external reference is done via IN1 and
IN2. Removal of the XTAL and addition of two 0 ohm resistors is required. IN3, IN4, IN5, and IN6 are not available
as external clock inputs for Si5335.
Figure 1. EVB Functional Block Diagram
XTAL
MCU
USB
Connector
0
* indicates unpopulated components
IN1
0
IN2
IN5
IN6
IN3
IN4
*
*CLK0A
CLK0B
VDDO0
VReg
VReg
VReg
VReg
CLK1A
CLK1B
VDDO1
term *
term *
term *
term *
CLK2A
CLK2B
VDDO2
term *
term *
CLK3A
CLK3B
VDDO3
term *
term *
Si5338
VReg
term *
term *
VDD
To
I2C
Bus
IN7/SCL
IN8/SDA
INx_CTRL
Jumpers
I2C Bus
To
I2C
Bus
Status
LEDs
Reset
Switch
VDDO
Jumpers
INTR
I2C
Jumpers
VDD
Jumpers
Si5338-EVB
Skyworks Solutions, Inc. • Phone [781] 376-3000 • Fax [781] 376-3100 • [email protected] • www.skyworksinc.com 3
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2. Quick Start
1. Install the ClockBuilder Pro software.
2. Connect a USB cable from the EVB to the PC where the software was installed.
3. Leave the jumpers as installed from the factory, and launch ClockBuilder Pro.
3. Jumpers
The Si5338-EVB is shipped with jumpers installed on the following positions:
VDD—Connects the Si533x VDD pin to the VDD programmable voltage regulator.
VDDO0—Connects the Si533x VDDO0 pin to the VDDO0 programmable voltage regulator.
VDDO1—Connects the Si533x VDDO1 pin to the VDDO1 programmable voltage regulator.
VDDO2—Connects the Si533x VDDO2 pin to the VDDO2 programmable voltage regulator.
VDDO3—Connects the Si533x VDDO3 pin to the VDDO3 programmable voltage regulator.
SCL—Connects the Si533x SCL pin to the I2C bus from the MCU.
SDA—Connects the Si533x SDA pin to the I2C bus from the MCU.
The INx-CTRL jumpers are optional jumpers for enabling MCU control of the Si533x input pins. This feature may
be available in future software releases.
4. Status LEDS
There are four status LEDs on the Si5338-EVB:
RDY (Green)—Indicates that the EVB is operating normally. This LED should always be on.
I2C (Green)—Indicates when there is active I2C communication between the MCU and the Si533x device or
between the MCU and voltage regulators.
USB (Green)—Indicates when there is active communication between the PC and the MCU over the USB
bus.
INTR (Red)—The MCU has detected that the interrupt pin of the Si533x device is enabled. The most
probable cause for an interrupt is because the Si533x has lost its input signal or the PLL has lost lock. The
“Status” tab of the GUI will identify the event that caused the interrupt to occur.
Si5338-EVB
4 Skyworks Solutions, Inc. • Phone [781] 376-3000 • Fax [781] 376-3100 • [email protected] • www.skyworksinc.com
Rev. 1.5 • Skyworks Proprietary Information • Products and Product Information are Subject to Change Without Notice • December 14, 2021
5. Inputs
The Si5338-EVB has six SMA connectors (IN1-IN6) for receiving external signals. Two of the signals are
differential, and two are single-ended.
5.1. Differential Inputs (IN1/IN2, IN5/IN6)
The differential inputs only need a differential voltage swing of 300 mV to operate, which makes them compatible
with most differential signal types. See “AN408: Termination Options for Any-Frequency, Any-Output Clock
Generators and Clock Buffers—Si5338, Si5334, Si5330”, or Si5335 data sheet if applicable, for details on
interfacing with compatible signal types. It is also possible to lock the Si5334/35/38 to an external signal generator
using one side of the differential input and grounding its complementary side. Take care not to exceed the max
differential voltage of 1.2 V on these inputs. The board is shipped with a 25 MHz XTAL connected to IN1/IN2. The
XTAL removal and resistor changes are required for Si5335 evaluation with an input clock since only IN1 and IN2
are available for input clocking with Si5335. Note that regardless of device, any external input to IN1 & IN2 must be
limited to 1.2 V peak-to-peak (see Figure 2 for resistor locations). When evaluating the Si5330, the XTAL must be
removed. The differential input on pins IN5/IN6 is ac-coupled with a 100 line termination (R39).
Figure 2. Optional Termination Resistors for Differential Inputs IN1/IN2
5.2. Single-Ended Inputs (IN3, IN4) [Not supported in Si5335]
These inputs are dc-coupled to the device. They are compatible with a signal swing as low as 100 mV and a
maximum of 3.63 V. The signal should have a minimum amount of dc bias to ensure that it is never below ground
level.
The EVB provides pads for optional input terminations. These may be necessary when interfacing to SSTL and
HSTL signals.
Note: For details on populated vs. non-populated components, refer to "8. Bill of Materials" on page 9.
Si5338-EVB
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6. Outputs (CLKxA/CLKxB)
Each of the four differential output drivers is capacitively coupled to the SMA connectors; so, the output signal will
have no dc bias. If a signal with dc bias is required, the ac coupling capacitors can be replaced with a 0 resistor.
The EVB provides pads for optional output terminations. These may be necessary when interfacing to SSTL and
HSTL signals.
6.1. Evaluating LVPECL Output Clocks
The EVB by default is populated to allow evaluating of all output clock formats with the exception of LVPECL
outputs. To evaluate LVPECL signals on the Si5338-EVB, a few components must be soldered down on the board.
Take CLK0 for example of. Note that CLK0 has R85, R121/R122, R1/R4, R2/R5, R3/R6, C4/C7, and C15/C17
attached to the nets of interest. The EVB comes with only R121/R122 and C15/C17 installed. This allows support
of all output types except LVPECL.
Evaluating an ac-coupled LVPECL clock on CLK0 requires a bias resistor of 130 or 200 to ground on each of the
output lines depending on driver VDDO. Refer to AN408, or Si5335 data sheet if applicable, for termination details.
Make the following changes depending on the CLK0 VDDO voltage:
For 3.3 V LVPECL (ac-coupled)
· Place 200 resistors in place of R1 and R4.
· Place 0 resistors in place of C4 and C7.
For 2.5 V LVPECL (ac-coupled)
· Place 130 resistors in place of R1 and R4.
· Place 0 resistors in place of C4 and C7.
The LVPECL output may also be dc-coupled to an LVPECL receiver. To dc-couple the CLK0 output, make the
component changes below. Note that R2, R3, R5, and R6 depend on VDDO.
Place 0 resistors in place of C15 and C17.
Place 50 resistors in place of R1 and R4.
Place C4 and C7
Select R2 and R3 (and similarly R5 and R6) to give a termination voltage of VTT = VDDO – 2 V.
For LVPECL termination on CLK1, 2, and 3 follow the guidelines above and refer to the schematics in “7. Si5338-
EVB Schematics” as needed.
6.2. Evaluating SSTL/HSTL Output Clocks
To support SSTL/HSTL outputs, either single-ended or differential, replace the output dc blocking capacitors with a
0 resistor. For example, for CLK0 output, replace C15 with 0 resistor for single-ended, or replace both C15 &
C17 with 0 for differential output. Do the same for CLK1,2,3 as needed. Remember to properly terminate at the
receiver input.
The Si5338-EVB can support on-board termination of SSTL/HSTL outputs, if on-board terminated, measurement
of the clock output at the SMA connector would require a high impedance measurement device to prevent
overloading of the output. If on-board output termination is desired, the following components must be installed
(using CLK0 as an example.)
For 1.8 or 2.5 V VDDO: R2 = 2 k, R3 = 2 k, R1 = 50 , C4 = 0.1 µF
For 3.3 V VDDO: R2 = 2.42 k, R3 = 2 k, R1 = 50 , C4 = 0.1 µF
Follow similar guidelines for CLK1,2,3 as required. Refer to AN408, or Si5335 data sheet if applicable, for more
details on clock termination.
Si5338-EVB
6 Skyworks Solutions, Inc. • Phone [781] 376-3000 • Fax [781] 376-3100 • [email protected] • www.skyworksinc.com
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7. Si5338-EVB Schematics
VDDO1
VDDO3
VDDO2
VDD
VDDO0
+3.3V
VDDO0
VDDO0
VDDO1
VDDO1
VDDO2
VDDO2
VDDO3
VDDO3
SDA_5338
SCL_5338
INTRPT
IN3_DRV
IN4_DRV
IN5_DRV
IN6_DRV
IN1_DRV
IN2_DRV
SCL_DRV
SDA_DRV
3ODFHWKHRKPUHVLVWRUDQG
XIFDSYHU\FORVHWRWKH
SLQV7KH.UHVLVWRUVFDQEH
IXUWKHUDZD\
3ODFH5FORVHWR;7$/SLQV
6L
'XPP\;7$/XVHGIRUWUDFHPDWFKLQJ
Place close to output pins
J3
SMA
IN2
J3
SMA
IN2
R33
2K
R33
2K
R25
1K
R25
1K
R47
49.9
R47
49.9
C8
0.1uF
C8
0.1uF
R122 0R122 0
R13 0
R13 0
C44
0.1uF
C44
0.1uF
R83 0
R83 0
R1
130
R1
130
R40
2K
R40
2K
R128 0R128 0
R26
1K
R26
1K
R45 0
R45 0
R12 0R12 0
J8
SMA
IN4
J8
SMA
IN4
R32
130
R32
130
C22
0.1uF
C22
0.1uF
R127 0R127 0
C7
0.1uF
C7
0.1uF
R117
49.9
R117
49.9
C15
0.1uF
C15
0.1uF
C4
0.1uF
C4
0.1uF
R86 100R86 100
R126 0R126 0
R84 0
R84 0
C30
0.1uF
C30
0.1uF
J9
SMA
CLK2A
J9
SMA
CLK2A
R20
2K
R20
2K
R36
2K
R36
2K
C5
0.1uF
C5
0.1uF
R88 100R88 100
R77 0R77 0
R125 0R125 0
R34
2K
R34
2K
R124 0R124 0
C18
0.1uF
C18
0.1uF
R123 0R123 0
R78 0R78 0
C9
0.1uF
C9
0.1uF
J1
SMA
CLK0A
J1
SMA
CLK0A
R39
100
R39
100
C41
0.1uF
C41
0.1uF
C14
0.1uF
C14
0.1uF
C54
0.1uF
C54
0.1uF
R82
0
R82
0
R18
49.9
R18
49.9
R116
49.9
R116
49.9
R10
100
R10
100
J13
SMA
IN6
J13
SMA
IN6
J6
SMA
CLK1B
J6
SMA
CLK1B
R19
130
R19
130
R27
2K
R27
2K
J2
SMA
IN1
J2
SMA
IN1
R8
130
R8
130
R120
49.9
R120
49.9
R81
0
R81
0
R85 100R85 100
R21
1K
R21
1K
J14
SMA
CLK3B
J14
SMA
CLK3B
R29
49.9
R29
49.9
25MHz
U1
25MHz
U1
XTAL1 1
GND 2
XTAL2
3
GND
4
25MHz
U7
25MHz
U7
XTAL1 1
GND 2
XTAL2
3
GND
4
R42
2K
R42
2K
C12
0.1uF
C12
0.1uF
R121 0R121 0
R44 0R44 0
J7
SMA
IN3
J7
SMA
IN3
R5
2K
R5
2K
C11
0.1uF
C11
0.1uF
C28
0.1uF
C28
0.1uF
C40
0.1uF
C40
0.1uF
C53
0.1uF
C53
0.1uF
R41
130
R41
130
J4
SMA
CLK0B
J4
SMA
CLK0B
R30
2K
R30
2K
R80
0
R80
0
R15
2K
R15
2K
R17
49.9
R17
49.9
C3
0.01uF
C3
0.01uF
+
C58
10uF
+
C58
10uF
R115
49.9
R115
49.9
R2
2K
R2
2K
C24
0.1uF
C24
0.1uF
R31
2K
R31
2K
R87 100R87 100
J5
SMA
CLK1A
J5
SMA
CLK1A
C13
0.1uF
C13
0.1uF
R119
49.9
R119
49.9
R7
4.99K
R7
4.99K
R28
49.9
R28
49.9
J12
SMA
CLK3A
J12
SMA
CLK3A
R14
130
R14
130
R9
2K
R9
2K
TP1
VTT_IN4
Test Point
TP1
VTT_IN4
Test Point
C26
0.01uF
C26
0.01uF
R43
2K
R43
2K
R6
2K
R6
2K
J11
SMA
IN5
J11
SMA
IN5
TP2
VTT_IN3
Test Point
TP2
VTT_IN3
Test Point
R22
1K
R22
1K
R35
2K
R35
2K
C17
0.1uF
C17
0.1uF
C45
0.1uF
C45
0.1uF
C27
0.01uF
C27
0.01uF
R79
0
R79
0
U2
Si5338
U2
Si5338
GND
25
CLK2A 14
IN4
4
IN6
6
IN3
3
IN5
5
IN2
2
IN1
1
CLK1B 17
CLK1A 18
CLK0B 21
CLK0A 22
VDD 24
VDDO0 20
VDDO1 16
VDDO2 15
VDDO3 11
VDD 7
INTR
8
IN7/SCL
12
IN8/SDA
19
GND
23
CLK3B 9
CLK3A 10
CLK2B 13
R3
2K
R3
2K
C20
0.1uF
C20
0.1uF
R16
2K
R16
2K
R23
1K
R23
1K
R4
130
R4
130
R37
130
R37
130
+
C93
10uF
+
C93
10uF
R95
49.9
R95
49.9
TP12
INTR
Test Point
TP12
INTR
Test Point
R38
2K
R38
2K
R11
2K
R11
2K
R118
49.9
R118
49.9
C23
0.1uF
C23
0.1uF
C2
0.01uF
C2
0.01uF
R24
1K
R24
1K
J10
SMA
CLK2B
J10
SMA
CLK2B
Figure 3. Si5338-EVB Main Schematic
Si5338-EVB
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IN3_DRIVE
IN4_DRIVE
SCL_5338_DRV
SDA_5338_DRV
IN1_DRIVE
IN1_DRIVE
IN2_DRIVE
IN2_DRIVE
IN5_DRIVE
IN6_DRIVE
SCL_5338_DRV
SDA_5338_DRV
IN6_EN
IN6_DRIVE
IN5_EN
IN5_DRIVE
IN1_EN
IN2_EN
I2C_5V_EN
IN2_EN
IN5_EN
IN6_EN
I2C_5V_EN
IN1_EN
IN3_DRIVE
IN4_DRIVE
+5V_USB
VDD
+3.3V
VDDO1
VDDO2
VDDO3
+3.3V
+3.3V
+3.3V
+3.3V
+3.3V
VDDO0
+5V_USB
+5V_USB
+5V_USB
+5V_USB
+5V_USB +5V_USB +5V_USB +3.3V
+3.3V +3.3V
+3.3V +3.3V
+5V_USB
+3.3V
+3.3V
+3.3V
+3.3V
+3.3V
9
9
9
+5V_USB
+3.3V
+5V_USB
VDD_pin
VDDO1_pin
VDDO2_pin
VDDO3_pin
VDDO0_pin
,1B'59
SCL_5V
SDA_5V
INTRPT
SCL_5V
SDA_5V
SCL_5338
SDA_5338
,1B'59
,1B'59
,1B'59
,1B'59
,1B'59
6&/B'59
6'$B'59
SCL_5V
SDA_5V
$GGUHVVLV
0&8
9WR99WR9
&/.,1
&/.,1%
&026
&026)%
)%&/.
)%&/.%
6&/
6'$
+1.2V
+1.2V
+1.2V
+1.2V
95HI
$GGUHVVLV
C47
0.1uF
C47
0.1uF
J16J16
1
R63 1.02KR63 1.02K
D1
MMBD3004S-7-F
D1
MMBD3004S-7-F
C51
0.1uF
C51
0.1uF
C49
0.1uF
C49
0.1uF
R96
0
R96
0
R97
825
R97
825
J19
HEADER 2x2
J19
HEADER 2x2
11
33
2
24
4
D4
Green
USB
D4
Green
USB
R50
1K
R50
1K
R103
511
R103
511
R61
1K
R61
1K
R55
2K
R55
2K J18J18
1
J20J20
1
C42
0.1uF
C42
0.1uF C43
0.1uF
C43
0.1uF
R54
2K
R54
2K
NLSV1T244
U5
NLSV1T244
U5
VCCA 1
A
2
GND
3
B5
OEB
4
VCCB 6
+
C48
10uF
+
C48
10uF
C50
0.1uF
C50
0.1uF
C55
0.1uF
C55
0.1uF
ADG728
U13
ADG728
U13
SDA 3
RESETB 2
S1
4
S2
5
S3
6
S4
7
D8
A0 16
S8
9
S7
10
S6
11
S5
12
VDD 13
GND
14
SCL 1
A1 15
R60
1K
R60
1K
R49
1.02K
R49
1.02K
C34
1uF
C34
1uF
R46
1.02K
R46
1.02K
J17J17
1
C38
0.1uF
C38
0.1uF
C56
0.1uF
C56
0.1uF
R69 220R69 220
J23
CONN SOCKET 5x2 Shrouded
J23
CONN SOCKET 5x2 Shrouded
1
122
3
344
5
566
7
788
9
910 10
S1
SW PUSHBUTTON
S1
SW PUSHBUTTON
R67 220
R67 220
C35
0.1uF
C35
0.1uF
R52
2K
R52
2K
C59
1uF
C59
1uF
R53
2K
R53
2K
R621K R621K
C52
1uF
C52
1uF
D2
MMBD3004S-7-F
D2
MMBD3004S-7-F
R76
1K
R76
1K
U8
C8051F340
U8
C8051F340
VDD 10
REGIN 11
GND
7
VBUS 12
D+
8
D-
9
P0.0
6P0.1
5P0.2
4P0.3
3P0.4
2P0.5
1P0.6
48 P0.7
47
P1.0 46
P1.1 45
P1.2 44
P1.3 43
P1.4 42
P1.5 41
P1.6 40
P1.7 39
P2.0 38
P2.1 37
P2.2 36
P2.3 35
P2.4 34
P2.5 33
P2.6 32
P2.7 31
P3.0 30
P3.1 29
P3.2 28
P3.3 27
P3.4 26
P3.5 25
P3.6 24
P3.7 23
P4.0 22
P4.1 21
P4.2 20
P4.3 19
P4.4 18
P4.5 17
P4.6 16
P4.7 15
RST/C2CK
13
C2D
14
J22J22
1
R101
511
R101
511
C37
0.1uF
C37
0.1uF
R99
511
R99
511
D5
Green
I2C
D5
Green
I2C
NLSV1T244
U10
NLSV1T244
U10
VCCA 1
A
2
GND
3
B5
OEB
4
VCCB 6
J21
USB Type B
J21
USB Type B
1
2
3
4
5
6
C57
0.1uF
C57
0.1uF
J25J25
1
C31
0.1uF
C31
0.1uF
R66
412
R66
412
D3
Red
INTR
D3
Red
INTR
+
C87
10uF
+
C87
10uF
R98
511
R98
511
C32
0.1uF
C32
0.1uF
R110
0
R110
0
TP11
GND
Test Point
TP11
GND
Test Point
TP3
SDA
Test Point
TP3
SDA
Test Point
NLSV1T244
U3
NLSV1T244
U3
VCCA 1
A
2
GND
3
B5
OEB
4
VCCB 6
C36
0.1uF
C36
0.1uF
C46
0.1uF
C46
0.1uF
PCA9517A
U6
PCA9517A
U6
VCCA 1
SCLA 2
SDAA 3
GND 4
VCCB
8
SCLB
7
EN
5
SDAB
6
R64
1.02K
R64
1.02K
NLSV1T244
U11
NLSV1T244
U11
VCCA 1
A
2
GND
3
B5
OEB
4
VCCB 6
ADG728
U14
ADG728
U14
SDA 3
RESETB 2
S1
4
S2
5
S3
6
S4
7
D8
A0 16
S8
9
S7
10
S6
11
S5
12
VDD 13
GND
14
SCL 1
A1 15
R65 1KR65 1K
J15J15
1
C33
4.7uF
C33
4.7uF
D6
Green
RDY
D6
Green
RDY
R68 220
R68 220
R111
0
R111
0
2.5V
U4
2.5V
U4
VOUT 1
GND
2
VIN
3
TP4
SCL
Test Point
TP4
SCL
Test Point
J24J24
1
C39
0.1uF
C39
0.1uF
R102
825
R102
825
R104
825
R104
825
R100
825
R100
825
R51
1K
R51
1K
Figure 4. Si5338-EVB MCU Schematic
Si5338-EVB
8 Skyworks Solutions, Inc. • Phone [781] 376-3000 • Fax [781] 376-3100 • [email protected] • www.skyworksinc.com
Rev. 1.5 • Skyworks Proprietary Information • Products and Product Information are Subject to Change Without Notice • December 14, 2021
VDDO1_int_en
VDDO0_int_en
VDDO3_int_en
VDDO2_int_en
VDD_int_en
VDD_int_en
VDDO3_int_en
VDDO2_int_en
VDDO1_int_en
VDDO0_int_en
+5V_USB
+5V_USB
+5V_USB
+5V_USB
+5V_USB
+5V_USB
+5V_USB
+5V_USB
+5V_USB
+5V_USB
+5V_USB
+5V_USB
+5V_USB
+5V_USB
+5V_USB
+5V_USB
+5V_USB
VDD
VDDO0
VDDO1 VDDO2 VDDO3
+3.3V
VDDO0_pin VDDO1_pin
VDDO2_pin VDDO3_pin
VDD_pin
SDA_5V
SCL_5V
SDA_5V
SCL_5V
SDA_5V
SCL_5V
Address is 0101100
Address is 0101101
$GGUHVVLV
9ROWDJH
5HJXODWRUV
C84
0.1uF
C84
0.1uF
J28
JUMPER
J28
JUMPER
1 2
C83
0.01uF
C83
0.01uF
R73 10KR73 10K
U17
MAX8869
U17
MAX8869
GND
10
IN
4
OUT 12
RSTB 6
SET
11
SHDNB
7
IN
5
IN
3
IN
2
OUT 13
OUT 14
OUT 15
SS
8
NC
16
NC
9
NC
1
EPAD 17
C66
1uF
C66
1uF
+
C63
10uF
+
C63
10uF
J27
JUMPER
J27
JUMPER
1 2
R105 10R105 10
U21
MAX8869
U21
MAX8869
GND
10
IN
4
OUT 12
RSTB 6
SET
11
SHDNB
7
IN
5
IN
3
IN
2
OUT 13
OUT 14
OUT 15
SS
8
NC
16
NC
9
NC
1
EPAD 17
R74
47.5K
R74
47.5K
TP8
VDDO3
Test Point
TP8
VDDO3
Test Point
R71
10K
R71
10K
C69
1uF
C69
1uF
TP17
GND
Test Point
TP17
GND
Test Point
J29
JUMPER
J29
JUMPER
1 2
C75
0.01uF
C75
0.01uF
C91
1uF
C91
1uF
C62
1uF
C62
1uF
U16
MAX8869
U16
MAX8869
GND
10
IN
4
OUT 12
RSTB 6
SET
11
SHDNB
7
IN
5
IN
3
IN
2
OUT 13
OUT 14
OUT 15
SS
8
NC
16
NC
9
NC
1
EPAD 17
C64
1uF
C64
1uF
U20
AD5263
U20
AD5263
GND
8
W4 19
A4 20
B3
4
W3
6
W1
3
A3
5
A1
2
B1
1
B4 21
W2 22
A2 23
B2 24
NC/O2 17
SDO/O1 16
VLOGIC 10
CSB/AD0
13 RESB/AD1 14
SHDN_B 15
VDD 7
DIS
9
SDI/SDA
11
CLK/SCL
12
VSS
18
C73
1uF
C73
1uF
TP16
GND
Test Point
TP16
GND
Test Point
U22
MAX8869
U22
MAX8869
GND
10
IN
4
OUT 12
RSTB 6
SET
11
SHDNB
7
IN
5
IN
3
IN
2
OUT 13
OUT 14
OUT 15
SS
8
NC
16
NC
9
NC
1
EPAD 17
+
C61
10uF
+
C61
10uF
C60
1uF
C60
1uF
R106 10R106 10
+
C67
10uF
+
C67
10uF
C81
1uF
C81
1uF
TP15
GND
Test Point
TP15
GND
Test Point
R72 10KR72 10K
U18
MAX8869
U18
MAX8869
GND
10
IN
4
OUT 12
RSTB 6
SET
11
SHDNB
7
IN
5
IN
3
IN
2
OUT 13
OUT 14
OUT 15
SS
8
NC
16
NC
9
NC
1
EPAD 17
U23
AD5263
U23
AD5263
GND
8
W4 19
A4 20
B3
4
W3
6
W1
3
A3
5
A1
2
B1
1
B4 21
W2 22
A2 23
B2 24
NC/O2 17
SDO/O1 16
VLOGIC 10
CSB/AD0
13 RESB/AD1 14
SHDN_B 15
VDD 7
DIS
9
SDI/SDA
11
CLK/SCL
12
VSS
18
C80
1uF
C80
1uF
C89
1uF
C89
1uF
R109 10R109 10
TP13
VDD
Test Point
TP13
VDD
Test Point
C68
1uF
C68
1uF
TP14
GND
Test Point
TP14
GND
Test Point
C88
1uF
C88
1uF
C78
1uF
C78
1uF
C72
0.01uF
C72
0.01uF
C90
1uF
C90
1uF
R75
15.4K
R75
15.4K
C71
0.01uF
C71
0.01uF
U15
MAX8869
U15
MAX8869
GND
10
IN
4
OUT 12
RSTB 6
SET
11
SHDNB
7
IN
5
IN
3
IN
2
OUT 13
OUT 14
OUT 15
SS
8
NC
16
NC
9
NC
1
EPAD 17
C85
1uF
C85
1uF
TP5
VDDO0
Test Point
TP5
VDDO0
Test Point
C86
0.01uF
C86
0.01uF
+
C65
10uF
+
C65
10uF
J26
JUMPER
J26
JUMPER
1 2
C76
0.01uF
C76
0.01uF
TP6
VDDO1
Test Point
TP6
VDDO1
Test Point
+
C79
10uF
+
C79
10uF
J30
JUMPER
J30
JUMPER
1 2
TP7
VDDO2
Test Point
TP7
VDDO2
Test Point
+
C82
10uF
+
C82
10uF
C74
0.1uF
C74
0.1uF
C70
1uF
C70
1uF
C77
0.1uF
C77
0.1uF
C92
1uF
C92
1uF
R70
10K
R70
10K
U19
AD5263
U19
AD5263
GND
8
W4 19
A4 20
B3
4
W3
6
W1
3
A3
5
A1
2
B1
1
B4 21
W2 22
A2 23
B2 24
NC/O2 17
SDO/O1 16
VLOGIC 10
CSB/AD0
13 RESB/AD1 14
SHDN_B 15
VDD 7
DIS
9
SDI/SDA
11
CLK/SCL
12
VSS
18
R107 10R107 10
R108 10R108 10
TP10
+3.3V
Test Point
TP10
+3.3V
Test Point
Figure 5. Si5338-EVB Voltage Regulation Schematic
Si5338-EVB
Skyworks Solutions, Inc. • Phone [781] 376-3000 • Fax [781] 376-3100 • [email protected] • www.skyworksinc.com 9
Rev. 1.5 • Skyworks Proprietary Information • Products and Product Information are Subject to Change Without Notice • December 14, 2021
8. Bill of Materials
Table 1. Si5338-EVB Bill of Materials
Item NI Qty Reference Value Manufacturer Part Number
1 10 C2,C3,C26,C27,C71,C72,
C75,C76,C83,C86
0.01 µF Venkel C0402X7R100-103M
2 35 C15,C17,C31,C32,C35,C36,C3
7,C38,C39,C40,C41,C42,C43,
C44,C45,C46,C47,C49,C50,C5
1,C53,C54,C55,C56,C57,C74,
C77,C84,C5,C8,C9,C11,C12
0.1 µF Venkel C0402X7R100-104K
C13
4 1 C33 4.7 µF Venkel C1206X7R100-475M
5 3 C34,C52,C59 1 µF Venkel C1206X7R250-105K
6 7 C48,C61,C63,C65,C67, 10 µF Kemet B45196H5106M309
C79,C82
7 17 C60,C62,C64,C66,C68,C69, 1 µF Venkel C0603X7R100-105K
C70,C73,C78,C80,C81,C85,
C88,C89,C90,C91,C92
8 2 D1,D2 MMBD3004S-7-F Diodes Inc. MMBD3004S-7-F
9 1 D3 Red Panasonic LN1271RAL
10 3 D4,D5,D6 Green Panasonic LN1371G
11 14 J1,J2,J3,J4,J5,J6,J7,J8, SMA Johnson
Components
142-0701-801
J9,J10,J11,J12,J13,J14
12 13 J15,J16,J17,J18,J20,J22, JUMPER Samtec TSW-102-07-T-S
J24,J25,J26,J27,J28,J29,J30
13 1 J19 HEADER 2x2 Samtec TSW-102-07-T-D
14 1 J21 USB Type B Tyco 292304-1
15 1 J23 CONN SOCKET 5x2
Shrouded
Tyco 5103309-1
18 1 R7 4.99K Venkel CR0402-16W-4991F
19 1 R39 100 Venkel CR0201-20W-1000F
20 7 R44,R45,R77,R78,R96,R110,R
111
0 Venkel CR0402-16W-000
21 2 R28,R29 49.9 Venkel CR0402-16W-49R9F
22 13 R21,R22,R23,R24,R25,R26, 1K Venkel CR0402-16W-102J
R50,R51,R60,R61,R62,R65,R7
6
23 4 R46,R49,R63,R64 1.02K Venkel TFCR0402-16W-E-1021B
25 4 R52,R53,R54,R55 2K Venkel CR0402-16W-2001F
26 1 R66 412 Venkel TFCR0402-16W-E-4120B
27 3 R67,R68,R69 220 Venkel CR0402-16W-221J
28 4 R70,R71,R72,R73 10K Venkel CR0402-16W-103J
29 1 R74 47.5K Venkel CR0603-10W-4752F
30 1 R75 15.4K Venkel CR0603-10W-1542F
31 6 R79,R80,R81,R82,R83,R84 0 Venkel CR0603-16W-000
Si5338-EVB
10 Skyworks Solutions, Inc. • Phone [781] 376-3000 • Fax [781] 376-3100 • [email protected] • www.skyworksinc.com
Rev. 1.5 • Skyworks Proprietary Information • Products and Product Information are Subject to Change Without Notice • December 14, 2021
32 4 R97,R100,R102,R104 825 Venkel CR0603-10W-8250F
33 4 R98,R99,R101,R103 511 Venkel CR0603-10W-5110F
34 5 R105,R106,R107,R108,R109 10 Venkel CR2512-2W-10R0D
35 8 R121,R122,R123,R124,
R125,R126,R127,R128
0 Venkel CR0201-20W-000F
36 1 S1 SW PUSHBUTTON Mountain Switch 101-0161-EV
37 1 TP11 Test Point Kobiconn 151-207
38 1 U1 25 MHz Epson FA-238 25.0000MB
39 1 U2 Si5338 Skyworks Si5338N-A-GMR
40 4 U3,U5,U10,U11 NLSV1T244 On Semi NLSV1T244MUTBG
41 1 U4 2.5 V Analog Devices AD1582BRT
42 1 U6 PCA9517A NXP PCA9517AD
43 1 U8 C8051F340 Skyworks C8051F340-GQ
44 2 U13,U14 ADG728 Analog Devices ADG728BRUZ
45 6 U15,U16,U17,U18,U21,U22 MAX8869 MAXIM MAX8869EUE50
46 3 U19,U20,U23 AD5263 Analog Devices AD5263BRUZ20
47 4 Standoffs SPC Technology 2397
48 4 Screws Richco NSS-4-4-01
49 7 Jumpers Sullins SPC02SYAN
Do Not Populate
2 NI 9 C4,C7,C14,C18, 0.1 µF Venkel C0402X7R100-104K
C22,C23,C20, C24,C28,C30,
6 NI 3 C58, C93, C87 10 µF Kemet B45196H5106M309
16 NI 8 R1,R4,R8,R14,R19,R32,R37, 130 Venkel CR0402-16W-131F
R41
17 NI 20 R2,R3,R5,R6,R9,R11,R15, 2K Venkel TFCR0402-16W-E-2001B
R16,R20,R27,R30,R31,R33,
R34,R35,R36,R38,R40,R42,
R43
19 NI 5 R10,R85,R86,R87,R88 100 Venkel CR0201-20W-1000F
20 NI 2 R12,R13 0 Venkel CR0402-16W-000
24 NI 8 R47,R95,R115,R116,R117, 49.9 Venkel CR0402-16W-49R9F
R118,R119,R120
21 NI 2 R17,R18 49.9 Venkel CR0402-16W-49R9F
37 NI 12 TP1,TP2,TP3,TP4,TP5,TP6, Test Point Kobiconn 151-207
TP7,TP8,TP9,TP10,TP12,TP13
38 NI 1 U7 25 MHz Epson FA-238 25.0000MB-W
Table 1. Si5338-EVB Bill of Materials (Continued)
Item NI Qty Reference Value Manufacturer Part Number
Si5338-EVB
Skyworks Solutions, Inc. • Phone [781] 376-3000 • Fax [781] 376-3100 • [email protected] • www.skyworksinc.com 11
Rev. 1.5 • Skyworks Proprietary Information • Products and Product Information are Subject to Change Without Notice • December 14, 2021
REVISION HISTORY
Revision 1.5
March, 2020
Replaced ClockBuilder Desktop instructions with ClockBuilder Pro instructions.
Revision 1.4
November, 2011
Added "6.1. Evaluating LVPECL Output Clocks" on page 5.
Added references to the Si5335.
Revision 1.3
July, 2011
Added "8. Bill of Materials" on page 9.
Revision 1.2
June, 2010
Changed “Any Rate Clock Generator” to “ClockBuilder Desktop” throughout.
Changed “MultiSynth Clock Programmer” to “ClockBuilder Desktop” throughout.
Updated Figure 3 on page 6.
Removed “Uninstaller Option” figure.
Updated Figure 8 on page 9.
Revision 1.1
August, 2009
Changed “Si533x configuration” to “Any Rate Clock Generator” throughout.
Changed “Si5338 Programmer” to “MultiSynth Clock Programmer” throughout.
Updated Table 1, “Programs,” on page 7.
Updated Figures 3, 4, and 8.
Revision 1.0
November, 2008
Replaced the voltage input terminal block with programmable regulators.
The board is entirely powered from USB power.
Added an additional LED to indicate MCU ready.
Added jumpers on all input pins to allow external control of features, such as output enable, and frequency
and phase increment and decrement.
Revision 0.1
September, 2008
Initial release.
This manual suits for next models
4
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