VALUATION BOARD USER S GUIDE - Silicon Labs...Si5356-EVB 2 Rev. 0.2 1. Quick Start 1. Install the...
Transcript of VALUATION BOARD USER S GUIDE - Silicon Labs...Si5356-EVB 2 Rev. 0.2 1. Quick Start 1. Install the...
Rev. 0.2 6/10 Copyright © 2010 by Silicon Labs Si5356-EVB
Si5356-EVB
Si5356 EVALUATION BOARD USER’S GUIDE
Description
The Si5356 evaluation board (EVB) is used forevaluating the Si5356 I2C programmable, anyfrequency 1–200 MHz, quad frequency 8-output clockgenerator.
EVB Features
Fully powered from a single USB port
On-board 25 MHz XTAL allows standalone asynchronous operation
GUI programmable VDD supply allows device to operate from 3.3 V, 2.5 V, or 1.8 V (core)
GUI programmable VDDO supplies allows each of the four banks of outputs to have its own supply voltage selectable from 3.3 V, 2.5 V, and 1.8 V
GUI controlled voltage, current, and power measurements of VDD and all four VDDO supplies.
Voltage supply jumpers allows easy access for use of external supplies or current measurements.
Figure 1. Si5356 Evaluation Board
Si5356-EVB
2 Rev. 0.2
1. Quick Start
1. Install the Si5356 ClockBuilder™ Desktop Software and driver. (Assumes that Microsoft .NET Framework 1.1 is already installed.)
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 the Si5356 configuration software by clicking on Start Programs Silicon Laboratories ClockBuilder Desktop Software.
4. Click on the “ClockBuilder Desktop” to configure the Si5356 using the graphical user interface.
2. Functional Description
A function block diagram of the EVB is shown in Figure 2. The MCU performs the USB to I2C conversion, controlsthe voltage regulators, monitors the INTR pin, and controls the three status LEDs. There are five programmablevoltage regulators (VDD, VDDOA, VDDOB, VDDOC, VDDOD), which supply power to the Si5356 device. VDD andVDDO jumpers allow the option of powering the device from external supplies or as a convenient point formeasuring current. I2C jumpers allow disconnecting the Si5356 from the I2C bus to allow external control fromanother I2C master.
The Si5356 EVB is shipped with an on-board 25 MHz XTAL to allow stand-alone asynchronous operation. TheSi5356 can be synchronized to an external reference using the CLKIN input and selecting the external referenceusing the ClockBuilder Desktop software.
Figure 2. EVB Functional Block Diagram
XTAL
MCU
USB Connector
XA
XB
SSC_DIS
OEB
CLKIN
I2C_LSB
CLK0
CLK1
VDDOA
VRegVReg
VRegVReg
CLK2
CLK3
VDDOB
CLK4
CLK5
VDDOC
CLK6
CLK7
VDDOD
Si5356
VReg
VDD
To I2C Bus
SCL
SDA
I2C
Bu
s
To I2C Bus
Status LEDs
Reset Switch
VDDO Jumpers
INTR
I2C Jumpers
VDD Jumpers
J712
J734
J756
SCL
SDA
VCC
+5V
+5V+5V
Si5356-EVB
Rev. 0.2 3
2.1. Status LEDSThere are three status LEDs on the EVB:
RDY (Green) indicates that the EVB is operating as normal. This LED should always be on.
BUSY (Green) lights when there is active communication between the PC, the MCU, and the Si5356.
INTR (Red) indicates the MCU has detected that the interrupt pin of the Si5356 device is enabled. The most probable cause for an interrupt is because the Si5356 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 happen.
2.2. InputsThe Si5356 EVB provides two reference options - using the on-board XTAL or an external reference.
Note: Si5356-EVB Rev 1.0 does not support synchronous operation using the CLKIN input. This feature will be supported in future revisions.
2.2.1. External Input reference
An SMA connector (CLKIN) is provided to receive an external single-ended CMOS signal. This input is dc-coupledto the device. The signal should have a minimum amount of dc bias to ensure that it never swings below groundlevel.
2.2.2. On-board XTAL
The on-board 25 MHz allows the Si5356 EVB to generate asynchronous clocks. To use this option, select the XTALinput from the Si5356 “ClockBuilder Desktop” software.
2.3. Outputs (CLK0-CLK7)Each of the eight output clocks can be accessed using SMA connectors. The outputs are dc-coupled (no in-line dcblocking capacitors between the output pin and the SMA connector).
2.4. Control PinsHeader J7 located on the backside of the Si5356 EVB allows setting three Si5356 control pins: SSC_DIS,I2C_LSB, and OEB.
2.4.1. SSC_DIS
This pin allows disabling of the spread spectrum feature on the output clocks. Spread spectrum is disabled whenthe jumper is installed.
2.4.2. I2C_LSB
This pin is the least significant bit of the Si5356 I2C address allowing up to two Si5356 devices to occupy the sameI2C bus. I2C address of the Si5356 = 0x70 when the jumper is installed. I2C address of the Si5356 = 0x71 when thejumper is not installed.
2.4.3. OEB
This pin allows disabling all output clocks. All outputs are enabled when the jumper is installed.
2.5. Voltage RegulatorsThe Si5356 EVB has five built-in programmable voltage regulators to allow setting of the VDD supply (to 3.3 V,2.5 V, and 1.8 V) and the four VDDO supplies (to 3.3 V, 2.5 V, and 1.8 V). The voltage level on each of thesesupplies can be set independently.
2.6. Reset SwitchA reset switch is provided to reset communication between the PC and Si5356 EVB.
Si5356-EVB
4 Rev. 0.2
3. ClockBuilder Desktop Software Installation
The following sections describe how to install and begin using the software. There is also a readme.txt file with theinstallation files as well as a user guide installed with the software.
3.1. System Requirements Microsoft Windows 2000 or Windows XP
USB 2.0
2 MB of free hard drive space
1024 x 768 screen resolution or greater
Microsoft .NET Framework 1.1
USBXpress 3.1.1 driverNote: USBXpress 3.1.1 driver is provided and installed with the software. Newer or older versions of USBXpress available
from other EVB kits or online have not been tested with this software.
3.2. Microsoft .NET Framework InstallationThe Microsoft .NET Framework is required before installing and running the software. Details and installationinformation about the .NET Framework are available via a shortcut in the NETFramework directory or at thefollowing web site:
http://www.microsoft.com/downloads/details.aspx?FamilyId=262D25E3-F589-4842-8157-034D1E7CF3A3&displaylang=en
There are multiple versions of the .NET Framework available from Microsoft, and they can be installed side-by-sideon the same computer. The software requires version 1.1. Contact your system administrator for more details.
3.3. ClockBuilder Desktop Software InstallationThe ClockBuilder Desktop Software is installed from the ClockBuilderDesktopSwInstall.exe file.
1. Double-click the install file to start the wizard.
2. Follow the wizard instructions to complete the installation for both the software and the driver. Use the default installation location for best results.
3. After the installation is complete, click on Start Programs Silicon Laboratories ClockBuilder Desktop Software. Select one of the items in the menu including the User Guide to get more details on how to run the software.
Si5356-EVB
Rev. 0.2 5
3.4. ClockBuilder Desktop Software Uninstall InstructionsClose all the programs and help files before running the uninstaller to ensure complete removal of the software.The driver software must be uninstalled separately. See “3.6. USBXpress Driver Installation” for details.To uninstall the software, use the Add and Remove Programs utility in the Control Panel, as shown in Figure 3.
Figure 3. Uninstall in Add and Remove Programs
Si5356-EVB
6 Rev. 0.2
3.5. ClockBuilder Desktop Software DescriptionThere are several programs to control the Si5356 device. These are available by clicking Start Programs Silicon Laboratories ClockBuilder Desktop Software X.X, where X.X is the softwareversion number. There is a detailed user guide accessible here and in the Help Help Menu option of thesoftware.
3.6. USBXpress Driver InstallationThe EVB uses the Silicon Laboratories' USBXpress driver to allow the EVB to communicate with the computer viaUSB.
The driver is installed after the EVB software is installed. Click Install to run the driver installation. Clicking Cancelwill not install any files, and the EVB will not work with the software.
Figure 4. Driver Installer Dialog
Note: If the driver has already been installed on the computer before, it will not be reinstalled, and a message box will appearas shown in Figure 5.
Figure 5. Driver Already Installed
The installer will copy the necessary driver files and update the operating system. However, for every different EVBconnected to the same computer, the hardware installation wizard will run to associate this driver with the newEVB. Let the wizard run with its default settings. Figure 6 shows a successful driver installation.
Table 1. Programs
Program Description
ClockBuilder Desktop This automatically programs the necessary registers based on the customer's desired frequency plan for the Si5356 device.
Bit Field Programmer This utility provides access to each bit field in the register map of the device; no masking and shifting is required to decode each setting or control in the register map.
Register Programmer This provides low-level control of the device with individual 8-bit register accesses.
Si5356-EVB
Rev. 0.2 7
Figure 6. Successful Driver Installation
Si5356-EVB
8 Rev. 0.2
The USBXpress driver may be removed via the Add and Remove Programs utility in the Control Panel. Locate theentry called Silicon Laboratories USBXpress Device. Click the button, and it should show the version and locationof what it will remove.
Figure 7. Driver Uninstall Location
The USBXpress installation files are located with the ClockBuilder Desktop Software. The driver files for the EVBmay be reinstalled from this location or by running the install software.
Figure 8. Driver Installation Files
Si5356-EVB
Rev. 0.2 9
4. Si5356-EVB Schematics
OEB
SSC
_DIS
I2C
_LSB
VD
DO
B VD
DO
D
VD
DO
C
VD
D
VD
DO
A
+3.3
V
VD
D+3
.3V
SDA_
5338
SCL_
5338
INTR
PT
Si5356
Place close to output pins
These traces need to be 50 ohms and be of equal length.
R3 0R3 0
R6
0R
60
C3
0.1u
FC
30.
1uF
R22 0R22 0
R15
10K
R15
10K
J6SMA
CLK
4
J6SMA
CLK
4
R13
0R
130
C1
0.1u
FC
10.
1uF
R7
0R
70
R14 0R14 0
C54
0.01
uFC
540.
01uF
R9
0R
90
C2
0.1u
FC
20.
1uF
J1SMA
CLK
0
J1SMA
CLK
0
R17
2.15
KR
172.
15K
R20
1KR20
1KR16
2.15
KR
162.
15K
R4 0R4 0
U1
Si53
56U
1Si
5356
EPAD 25
CLK
414
I2C
_LS
B3
OE
B6
CLK
IN4
SS
C_D
IS5
XB
2
XA
1
CLK
317
CLK
218
CLK
121
CLK
022
VDD24
VDDOA20
VDDOB16
VDDOC15
VDDOD11
VDD7
INTR
8
SC
L12
SD
A19
GND 23
CLK
79
CLK
610
CLK
513
J5SMA
CLK
3
J5SMA
CLK
3
R23 0R23 0R2 0R2 0
J7 HEA
DER
2x3
J7 HEA
DER
2x3
1324
56
J10
SMA
CLK
7
J10
SMA
CLK
7
25M
Hz
U2
25M
Hz
U2
XTA
L11
GN
D2
XTA
L23
GN
D4
C6
0.1u
FC
60.
1uF
J4 SMA
CLK
IN
J4 SMA
CLK
IN
C4
0.1u
FC
40.
1uF
R12
0R
120
C55
0.01
uFC
550.
01uF
J2SMA
CLK
1
J2SMA
CLK
1
R8
0R
80
R19 0R19 0
J3SMA
CLK
2
J3SMA
CLK
2
C5
0.1u
FC
50.
1uF
R1
4.99
KR
14.
99K
R5
0R
50
J9SMA
CLK
6
J9SMA
CLK
6
R10 0R10 0
R21
1KR21
1K
R18
0R
180
TP1IN
TR
RED
TP1IN
TR
RED
R11
0R
110
J8SMA
CLK
5
J8SMA
CLK
5
Fig
ure
9.S
i535
6-E
VB
Sch
emat
ic
Si5356-EVB
10 Rev. 0.2
I2C
_5V_
EN
I2C
_5V_
EN
+5V
_US
B
VD
D+3
.3V
VD
DO
BV
DD
OC
VD
DO
D
+3.3
V
+3.3
V
+3.3
V
+3.3
V
VD
DO
A
+5V
_US
B
+5V_
USB
+5V
_US
B
+5V
_US
B
+5V
_US
B+5
V_U
SB
+5V
_US
B+3
.3V +3
.3V
+3.3
V+3
.3V
+3.3
V
+5V
_US
B
+3.3
V
+5V
_US
B
+3.3
V
+5V
_US
B
VDD
_pin
VDD
OB_
pin
VDD
OC
_pin
VDD
OD
_pin
VDD
OA_
pin
+3.3
V
SCL_
5V
SDA_
5V
INTR
PT
SCL_
5V
SDA_
5V
SCL_
5338
SDA_
5338
SCL_
5V
SDA_
5V
Address is 1001100
MCU
0.9V
to
5.5V
2.7V
to
5.5V
+2.5
V Re
f
Address is 1001101
R45
1.02
KR
451.
02K
D2 M
MBD
3004
S-7-
FD
2 MM
BD30
04S-
7-F
C16
0.1u
F
C16
0.1u
F
R37
0R37
0
J11
HEA
DER
2x2
J11
HEA
DER
2x2
11
33
22
44
D4
GR
EEN
BUSY
D4
GR
EEN
BUSY
R26
1KR26
1K
R40
1KR40
1K
R33
2KR33
2K
C12
0.1u
F
C12
0.1u
FC
13
0.1u
F
C13
0.1u
F
R31
2KR31
2K
R35
0R35
0
+C14
10uF
+C14
10uF
C17
0.1u
F
C17
0.1u
F
ADG
728U6
ADG
728U6
SD
A3
RE
SE
TB2
S1
4
S2
5
S3
6
S4
7
D8
A0
16
S8
9
S7
10
S6
11
S5
12
VDD13 GND 14
SC
L1
A1
15
R39
1KR39
1K
R25
1.02
KR
251.
02K
C8
1uF
C8
1uF
R24
1.02
KR
241.
02K
C10
0.1u
F
C10
0.1u
F
C18
0.1u
FC
180.
1uF
R44
220
R44
220
S1
SW P
USH
BUTT
ONS1
SW P
USH
BUTT
ON
R43
220
R43
220
R29
2KR29
2K
C20
1uF
C20
1uF
R30
2KR30
2K
R41
1KR
411K
C15
1uF
C15
1uF
D3 M
MBD
3004
S-7-
FD
3 MM
BD30
04S-
7-F
R28
1KR28
1K
U5
C80
51F3
40
U5
C80
51F3
40
VDD10
REGIN11 GND 7
VBUS12
D+
8D
-9
P0.
06
P0.
15
P0.
24
P0.
33
P0.
42
P0.
51
P0.
648
P0.
747
P1.
046
P1.
145
P1.
244
P1.
343
P1.
442
P1.
541
P1.
640
P1.
739
P2.
038
P2.
137
P2.
236
P2.
335
P2.
434
P2.
533
P2.
632
P2.
731
P3.
030
P3.
129
P3.
228
P3.
327
P3.
426
P3.
525
P3.
624
P3.
723
P4.
022
P4.
121
P4.
220
P4.
319
P4.
418
P4.
517
P4.
616
P4.
715
RS
T/C
2CK
13C
2D14
C9
0.1u
FC
90.
1uF
J12
USB
Typ
e B
J12
USB
Typ
e B
1 2 3 4
56
C19
0.1u
FC
190.
1uF
R47
412
R47
412
D1
RED
INTR
D1
RED
INTR
+C21
10uF
+C21
10uF
TP4
GN
DR
EDTP
4
GN
DR
ED
TP3
SDA
RED
TP3
SDA
RED
U4
PCA9
517DU
4
PCA9
517D
VC
CA
1
SC
LA2
SD
AA
3
GN
D4
VC
CB
8
SC
LB7
EN
5
SD
AB
6
R46
1.02
KR
461.
02K
ADG
728U7
ADG
728U7
SD
A3
RE
SE
TB2
S1
4
S2
5
S3
6
S4
7
D8
A0
16
S8
9
S7
10
S6
11
S5
12
VDD13 GND 14
SC
L1
A1
15
R42
1KR
421K
C7
4.7u
FC
74.
7uF
D5
GR
EEN
RD
YD
5G
REE
NR
DY
R34
0R34
0
2.5V
U3
2.5V
U3
VO
UT
1
GND 2
VIN
3
TP2
SCL
RED
TP2
SCL
RED
C11
0.1u
F
C11
0.1u
F
R27
1KR27
1K
J13
5X2
Shro
uded
Hea
der
J13
5X2
Shro
uded
Hea
der
11
22
33
44
55
66
77
88
99
1010
Fig
ure
10.S
i535
6-E
VB
MC
U S
chem
atic
Si5356-EVB
Rev. 0.2 11
VDD
O1_
int_
en
VDD
O0_
int_
en
VDD
O3_
int_
en
VDD
O2_
int_
en
VDD
_int
_en
VDD
_int
_en
VDD
O3_
int_
en
VDD
O2_
int_
en
VDD
O1_
int_
en
VDD
O0_
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
VDD
OA
VDD
OB
VDD
OC
VDD
OD
+3.3
V
VDD
OA_
pin
VDD
OB_
pin
VDD
OC
_pin
VDD
OD
_pin
VDD
_pin
SDA_
5V
SCL_
5V
SDA_
5V
SCL_
5V
SDA_
5V
SCL_
5V
Address is 0101100
Address is 0101101
Address is 0101110
Voltage
Regulators
C51
0.1u
FC
510.
1uF
J16
JUM
PER
J16
JUM
PER
12
C50
0.01
uFC
500.
01uF
R56
10K
R56
10K
U10
MAX
8869
U10
MAX
8869
GN
D
10
IN4
OU
T12
RS
TB6
SE
T
11
SH
DN
B7
IN5
IN3
IN2
OU
T13
OU
T14
OU
T15
SS
8
NC16
NC9
NC1
EP
AD
17
C32
1uF
C32
1uF
+C27 10
uF
+C27 10
uF
J15
JUM
PER
J15
JUM
PER
12
R48
10R
4810
U14
MAX
8869
U14
MAX
8869
GN
D
10
IN4
OU
T12
RS
TB6
SE
T
11
SH
DN
B7
IN5
IN3
IN2
OU
T13
OU
T14
OU
T15
SS
8
NC16
NC9
NC1
EP
AD
17
R57
47.5
K
R57
47.5
K
TP8
VDD
OD
RED
TP8
VDD
OD
RED
R53
10K
R53
10K
C35 1uF
C35 1uF
TP14
GN
DR
EDTP
14
GN
DR
ED
J17
JUM
PER
J17
JUM
PER
12
C41
0.01
uFC
410.
01uF
C31
1uF
C31
1uF
C26
1uF
C26
1uF
U9
MAX
8869
U9
MAX
8869
GN
D
10
IN4
OU
T12
RS
TB6
SE
T
11
SH
DN
B7
IN5
IN3
IN2
OU
T13
OU
T14
OU
T15
SS
8
NC16
NC9
NC1
EP
AD
17
C29
1uF
C29
1uF U
13
AD52
63
U13
AD52
63
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
SD
O/O
116
VLOGIC10
CS
B/A
D0
13R
ES
B/A
D1
14
SH
DN
_B15
VDD7
DIS
9
SD
I/SD
A11
CLK
/SC
L12
VSS 18
C39 1uF
C39 1uF
TP13
GN
DR
EDTP
13
GN
DR
ED
+C25 10
uF
+C25 10
uF
U15
MAX
8869
U15
MAX
8869
GN
D
10
IN4
OU
T12
RS
TB6
SE
T
11
SH
DN
B7
IN5
IN3
IN2
OU
T13
OU
T14
OU
T15
SS
8
NC16
NC9
NC1
EP
AD
17
C22
1uF
C22
1uF
R49
10R
4910
+C33 10
uF
+C33 10
uF
C49
1uF
C49
1uF
TP12
GN
DR
EDTP
12
GN
DR
ED
R55
10K
R55
10K
U11
MAX
8869
U11
MAX
8869
GN
D
10
IN4
OU
T12
RS
TB6
SE
T
11
SH
DN
B7
IN5
IN3
IN2
OU
T13
OU
T14
OU
T15
SS
8
NC16
NC9
NC1
EP
AD
17
U16
AD52
63
U16
AD52
63
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
SD
O/O
116
VLOGIC10
CS
B/A
D0
13R
ES
B/A
D1
14
SH
DN
_B15
VDD7
DIS
9
SD
I/SD
A11
CLK
/SC
L12
VSS 18
C47 1uF
C47 1uF
C23
1uF
C23
1uF
R54
10R
5410
TP9
VDD
RED
TP9
VDD
RED
C34 1uF
C34 1uF
TP11
GN
DR
EDTP
11
GN
DR
ED
C24
1uF
C24
1uF
C45
1uF
C45
1uF
C38
0.01
uFC
380.
01uF
C28
1uF
C28
1uF
R58
15.4
KR
5815
.4K
C37
0.01
uF
C37
0.01
uF
U8
MAX
8869
U8
MAX
8869
GN
D
10
IN4
OU
T12
RS
TB6
SE
T
11
SH
DN
B7
IN5
IN3
IN2
OU
T13
OU
T14
OU
T15
SS
8
NC16
NC9
NC1
EP
AD
17
C52 1uF
C52 1uF
TP5
VDD
OA
RED
TP5
VDD
OA
RED
C53
0.01
uFC
530.
01uF
+C30 10
uF
+C30 10
uF
J14
JUM
PER
J14
JUM
PER
12
C42
0.01
uFC
420.
01uF
TP6
VDD
OB
RED
TP6
VDD
OB
RED
+C46 10
uF
+C46 10
uF
J18
JUM
PER
J18
JUM
PER
12
TP7
VDD
OC
RED
TP7
VDD
OC
RED
+C48
10uF
+C48
10uF
C40
0.1u
FC
400.
1uF
C36 1uF
C36 1uF
C44
1uF
C44
1uF
C43
0.1u
FC
430.
1uF
R52
10K
R52
10K
U12
AD52
63
U12
AD52
63
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
SD
O/O
116
VLOGIC10
CS
B/A
D0
13R
ES
B/A
D1
14
SH
DN
_B15
VDD7
DIS
9
SD
I/SD
A11
CLK
/SC
L12
VSS 18
R51
10R
5110
R50
10R
5010
TP10
+3.3
VR
EDTP
10
+3.3
VR
ED
Fig
ure
11.S
i535
6-E
VB
Vo
ltag
e R
egu
lato
rs S
chem
atic
Si5356-EVB
12 Rev. 0.2
5. Si5356-EVB Bill of Materials
Table 2. Si5356-EVB Bill of Materials
Item Qty Reference Value Voltage Tol PCB Footprint Mfr Mfr Part Number
1 18 C1,C2,C3,C4,C5,C6,C9,C10,C11,C12,C13,C16,C17,C18,C19,C40,C43,
C51
0.1 µF 10 V ±10% C0402 Venkel C0402X7R100-104K
2 1 C7 4.7 µF 10 V ±20% C1206 Venkel C1206X7R100-475M
3 3 C8,C15,C20 1 µF 25 V ±10% C1206 Venkel C1206X7R250-105K
4 7 C14,C25,C27,C30,C33,C46,
C48
10 µF 25 V ±20% 6032_EIAC Kemet B45196H5106M309
5 17 C22,C23,C24,C26,C28,C29,C31,C32,C34,C35,C36,C39,C44,C45,C47,
C49,C52
1 µF 10 V ±10% C0603 Venkel C0603X7R100-105K
6 6 C37,C38,C41,C42,C50,C53
0.01 µF 10 V ±20% C0402 Venkel C0402X7R100-103M
7 1 D1 RED LED-S-GW-KA Panasonic LN1271RAL
8 2 D2,D3 MMBD3004S-7-F 300 V SOT23-AKC Diodes Inc. MMBD3004S-7-F
9 2 D4,D5 GREEN LED-S-GW-AK Panasonic LN1371G
10 8 J1,J2,J3,J5,J6,J8,J9,J10
SMA SMA-EDGE-5 Johnson Components
142-0701-801
11 1 J7 HEADER 2x3 CONN2X3 Samtec TSW-103-07-T-D
12 1 J11 HEADER 2x2 CONN2X2 Samtec TSW-102-07-T-D
13 1 J12 USB Type B CONN-USB-B Tyco 292304-1
14 1 J13 5X2 Shrouded Header
CONN2X5-4W Tyco 5103309-1
15 5 J14,J15,J16,J17,J18
JUMPER CONN-1X2 Samtec TSW-102-07-T-S
16 1 R1 4.99 k ±1% R0402 Venkel CR0402-16W-4991F
17 19 R2,R3,R4,R5,R6,R8,R9,R10,R11,R12,R13,R14,R18,R19,R22,R23,R34,
R35,R37
0 R0402 Venkel CR0402-16W-000
18 1 R15 10 k ±1% R0603 Venkel CR0603-10W-1002F
19 2 R16,R17 2.21 k ±1% R0603 Venkel CR0603-10W-2211F
Si5356-EVB
Rev. 0.2 13
20 2 R20,R21 1 k ±1% R0603 Venkel CR0603-10W-1001F
21 4 R24,R25,R45,R46
1.02 k ±0.1%
R0402 Venkel TFCR0402-16W-E-1021B
22 7 R26,R27,R28,R39,R40,R41,
R42
1 k ±5% R0402 Venkel CR0402-16W-102J
23 4 R29,R30,R31,R33
2 k ±1% R0402 Venkel CR0402-16W-2001F
24 2 R43,R44 220 ±5% R0402 Venkel CR0402-16W-221J
25 1 R47 412 ±1% R0402 Venkel CR0402-16W-4120F
26 5 R48,R49,R50,R51,R54
10 ±0.5%
R2512 Venkel CR2512-2W-10R0D
27 4 R52,R53,R55,R56
10 k ±5% R0402 Venkel CR0402-16W-103J
28 1 R57 47.5 k ±1% R0603 Venkel CR0603-10W-4752F
29 1 R58 15.4 k ±1% R0603 Venkel CR0603-10W-1542F
30 1 S1 SW PUSHBUTTON
12 Vdc SW-PB-MOM Mountain Switch
101-0161-EV
31 1 TP4 Black TESTPOINT Kobiconn 151-203-RC
32 1 U1 Si5356 3.3 V QFN24N4X4P0.5
SiLabs Si5356-A-A-GM
33 1 U2 25 MHz XTAL4N3.2X2.5-FA238
Epson FA-238 25.0000MB
34 1 U3 2.5 V SOT-23 Analog Devices
AD1582BRT
35 1 U4 PCA9517D SO8N6.0P1.27 NXP PCA9517D
36 1 U5 C8051F340 5.5 V QFP48N9X9P0.5
SiLabs C8051F340-GQ
37 2 U6,U7 ADG728 2.7–5.5 V
TSSOP16N6.4P0.65
Analog Devices
ADG728BRUZ
38 6 U8,U9,U10,U11,U14,U15
MAX8869 TSSOP16N6.5P0.65E
Maxim MAX8869EUE50
39 3 U12,U13,U16 AD5263 TSSOP24N6.4P0.65
Analog Devices
AD5263BRUZ20
40 4 SPC Technology
2397
41 4 Richco NSS-4-4-01
42 10 Jumpers Sullins SPC02SYAN
43 1 C21 10 µF 25 V ±20% 6032_EIAC Kemet B45196H5106M309
Table 2. Si5356-EVB Bill of Materials (Continued)
Item Qty Reference Value Voltage Tol PCB Footprint Mfr Mfr Part Number
Si5356-EVB
14 Rev. 0.2
44 1 J4 SMA SMA-EDGE-5 Johnson Components
142-0701-801
45 1 R7 0 R0402 Venkel CR0402-16W-000
46 13 TP1,TP2,TP3,TP5,TP6,TP7,
TP8,TP9,TP10,TP11,TP12,TP13,TP14
RED TESTPOINT Kobiconn 151-207-RC
Table 2. Si5356-EVB Bill of Materials (Continued)
Item Qty Reference Value Voltage Tol PCB Footprint Mfr Mfr Part Number
Si5356-EVB
Rev. 0.2 15
DOCUMENT CHANGE LIST
Revision 0.1 to Revision 0.2 Changed “Any Rate Clock Generator” to
“ClockBuilder Desktop” throughout.
Changed “MultiSynth Clock Programmer” to “ClockBuilder Desktop” throughout.
Updated Figure 3 on page 5.
Removed “Uninstaller Option” figure.
Updated Figure 8 on page 8.
DisclaimerSilicon Laboratories intends to provide customers with the latest, accurate, and in-depth documentation of all peripherals and modules available for system and software implementers using or intending to use the Silicon Laboratories products. Characterization data, available modules and peripherals, memory sizes and memory addresses refer to each specific device, and "Typical" parameters provided can and do vary in different applications. Application examples described herein are for illustrative purposes only. Silicon Laboratories reserves the right to make changes without further notice and limitation to product information, specifications, and descriptions herein, and does not give warranties as to the accuracy or completeness of the included information. Silicon Laboratories shall have no liability for the consequences of use of the information supplied herein. This document does not imply or express copyright licenses granted hereunder to design or fabricate any integrated circuits. The products must not be used within any Life Support System without the specific written consent of Silicon Laboratories. A "Life Support System" is any product or system intended to support or sustain life and/or health, which, if it fails, can be reasonably expected to result in significant personal injury or death. Silicon Laboratories products are generally not intended for military applications. Silicon Laboratories products shall under no circumstances be used in weapons of mass destruction including (but not limited to) nuclear, biological or chemical weapons, or missiles capable of delivering such weapons.
Trademark InformationSilicon Laboratories Inc., Silicon Laboratories, Silicon Labs, SiLabs and the Silicon Labs logo, CMEMS®, EFM, EFM32, EFR, Energy Micro, Energy Micro logo and combinations thereof, "the world’s most energy friendly microcontrollers", Ember®, EZLink®, EZMac®, EZRadio®, EZRadioPRO®, DSPLL®, ISOmodem ®, Precision32®, ProSLIC®, SiPHY®, USBXpress® and others are trademarks or registered trademarks of Silicon Laboratories Inc. ARM, CORTEX, Cortex-M3 and THUMB are trademarks or registered trademarks of ARM Holdings. Keil is a registered trademark of ARM Limited. All other products or brand names mentioned herein are trademarks of their respective holders.
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