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Rev. 0.3 4/14 Copyright © 2014 by Silicon Laboratories Si5xx/514/570-PROG-EVB
Si5xx/514/570-PROG-EVB
Si514/570/571/598/599 ANY-FREQUENCY I2CPROGRAMMABLE XO/VCXO EVALUATION BOARD
Description
The Silicon Laboratories Si514/570/571/598/599evaluation kit contains the hardware and softwareneeded for evaluation of the Si514/570/571/598/599Any-Frequency I2C programmable XO/VCXO and canbe run on a USB-equipped PC.
Features
Evaluation of Silicon Laboratories' Si514/570/571/
598/599 Any-Frequency I2C programmable XO/VCXO
Windows-compatible software control and device programming
Voltage regulator supports device operation of the Si5xx at +1.8, +2.5, or +3.3 V
I2C communication options are jumper configurable
Voltage control (VC) input port (Si571/Si599)
Functional Block Diagram
LevelTranslator
J16
VDD
OutputConditioner
J14
J18GND
CLKP
CLKN
SDA (VC)
SCL (OE)
1
2
3
6
5
4
CLKP
CLKN
8
7
TP4
J13
LevelTranslator
OutputEnable
VDDREG
J11
TP3(VDD_DUT)
Manual VDDVoltage Select
4-3=2.5V2-1=3.3V OPEN=1.8V
1
3
2
4
USB
C8051F342MCU
TP2(VBUS_5V)
J2
OptionalPower In
J5
1 2 3
RE
GIN
TP1(EXT3P3V)
Filter
J12
J1
TP10
1
2
3TP6
(SCL)TP7
(SDA)
J19
J17
J20
1
2
1
2
1
2
3
1
2
3
VCO In
DUT
NC
(S
CL
)N
C (
SD
A)
2 Rev. 0.3
1. Introduction
This document describes the operation of the Silicon Laboratories Si514/570/571/598/599 evaluation kit. TheSi5xx-PROG-EVB kit refers to the evaluation board hardware and software intended for customer evaluation of theSi514/570/571/598/599 Any-Frequency I2C programmable XO/VCXO. The Si5xx-EVB kit contains the following:
Si5xx-PROG-EVB Hardware
Programmable Oscillator Software
EVB Driver (USBXpress®)
The software components run on a USB-equipped PC and are described in detail in Section “5. Software Guide”
The Si5xx-PROG-EVB evaluation board can be used to evaluate the Si514, Si570, Si571, Si598, and Si599 I2Cprogrammable XOs or VCXOs as shown in Table 1. The Si514-PROG-EVB evaluation board can be used toevaluate the Si514 I2C-programmable XO as shown in Table 1. This evaluation board functions and performssimilar to the Si5xx-PROG-EVB evaluation board.
Table 1. Si5xx XO and VCXO Device Evaluation Board Selector Guide
Ordering Part # Type Devices Supported
Packages Supported
Output Format, Temp Stability, Tuning Slope
Supported Frequency
Range
Si5xx-EVB Single/Dual Frequency XO/VCXO Eval Board
Si510/511 Si512/513 Si515/516 Si530/531 Si532/533 Si550/552Si590/591
5 x 7 mm, 6-pin 3.2 x 5 mm, 6-pin 3.2 x 5 mm, 4-pin
Any 100 kHz to1417 MHz
Si5xx-PROG-EVB I2C Programmable XO/VCXO Eval Board
Si514Si570/571Si598/599
5 x 7 mm, 8-pin 5 x 7 mm 6-pin
3.2 x 5 mm, 6-pin
Any 100 kHz to1417 MHz
Si514-PROG-EVB I2C Programmable XO Eval Board with sol-
dered Si514
Si514 5 x 7 mm 6-pin Any 100 kHz to250 MHz
Si5xx5x7-EVB Quad Frequency XO/VCXO Eval Board
Si534Si554
5 x 7 mm, 8-pin Any 10 to 1417 MHz
Si570-PROG-EVB I2C Programmable XO Eval Board with
soldered Si570
Si570 5x7 mm 8-pin Any 10 to 1417 MHz
Notes:1. Si5xx samples must be ordered separately from the Si5xx-PROG-EVB.2. Board must be modified to be consistent with the ordered part. See "3.10. Output Terminations" on page 8.3. Si514-PROG-EVB comes with an Si514 preinstalled.
Rev. 0.3 3
1.1. Quick Start1. Install an Si514, Si570, Si571, Si598, or Si599 device on the board (Si514-PROG-EVB comes with an Si514
preinstalled; the Si570-PROG-EVB also comes with an Si570 installed).
2. Verify that the jumper settings are correct.
3. Connect the USB cable from the EVB to the host PC.
4. Install the Programmable Oscillator Software and driver.
5. Launch the Programmable Oscillator Software by clicking Start Programs Silicon Laboratories Programmable Oscillator Software. Click on one of the shortcuts in the group.
4 Rev. 0.3
2. Top/Bottom Views of Board
Figure 1. Board Views (a) Top; (b) Bottom
(a)
DefaultJumperSettings
HW control ofVDD_DUT voltagevia jumpers
(b)
StatusLEDs
Rev. 0.3 5
3. Functional Description
The Si5xx-PROG-EVB is the evaluation board assembly for the Si514/570/571/598/599 Any-Frequency I2CProgrammable XO/VCO. This evaluation board assembly provides access to all signals for programming andoperating the device. The Si5xx-PROG-EVB schematics, bill of materials, and PCB layouts are included assections 6, 7, and 8, respectively. Figure 2 provides a block diagram for the board.
Figure 2. Si5xx-PROG-EVB Functional Block Diagram
LevelTranslator
J16
VDD
OutputConditioner
J14
J18GND
CLKP
CLKN
SDA (VC)
SCL (OE)
1
2
3
6
5
4
CLKP
CLKN
8
7
TP4
J13
LevelTranslator
OutputEnable
VDDREG
J11
TP3(VDD_DUT)
Manual VDDVoltage Select
4-3=2.5V2-1=3.3V OPEN=1.8V
1
3
2
4
USB
C8051F342MCU
TP2(VBUS_5V)
J2
OptionalPower In
J5
1 2 3
RE
GIN
TP1(EXT3P3V)
Filter
J12
J1
TP10
1
2
3TP6
(SCL)TP7
(SDA)
J19
J17
J20
1
2
1
2
1
2
3
1
2
3
VCO In
DUT
NC
(S
CL)
NC
(S
DA
)
6 Rev. 0.3
3.1. Power SupplyThe Si5xx-PROG-EVB is pre-configured to accept 5 V from the USB connector at J2. The DUT is powered fromthe VDD regulator by default, but could be changed to an external supply introduced through J1. To do this, simplymove jumper J11 from pins 2-3 to 1-2 and apply power to J1. (Ensure the voltage range of the DUT is obeyed, andit is also good practice to set a current limit on the power supply).
It is also possible for the microcontroller (U9) to adjust the VDD regulator through the software. The microcontrollerhas pull-downs configured at P0.0 and P0.1 that grounds R18 and R19, respectively, adjusting VDD_DUT to 1.8,2.5, or 3.3 V. It is also possible to install jumpers in J5 to manually force a VDD_DUT voltage. Table 2 illustrates thesettings of J5:
3.2. Reset CircuitThe Si5xx-PROG-EVB MCU may be reset by momentarily pressing pushbutton SW1.
3.3. USBA 4-pin USB receptacle is provided at location J2. The Si5xx-PROG-EVB is compatible with USB Specification 2.0.When the USB link is in use, the MCU drives LED D4.
3.4. MCUThe Silicon Laboratories MCU, P/N C8051F342, provides the following functions:
Supports I2C communication to the DUT on behalf of the host PC per the Programmable Oscillator Software
Drives a number of status indicator LEDs (see Table 3)
Supplies 3.3 V to peripheral ICs on the motherboard but not to the DUT
Controls DUT power (see Section “3.1. Power Supply” )
Auto-detects the part type (e.g., Si51x/Si57x/Si59x)
There is a provision for in-circuit programming at connector J4. This provision should not be needed in normaloperation. The host PC operates the software and communicates to the Si5xx-PROG-EVB through the MCU viaUSB connector J2. When the USB link is in use, LED D4 should flash. The MCU may be reset by momentarilypressing pushbutton (SW1).
Table 2. J5 settings for VDD_DUT
Jumper VDD_DUT
Open 1.8 V
1–2 3.3 V
3–4 2.5 V
Rev. 0.3 7
3.5. Status SignalsThere are four LEDs on the Si5xxPROG-EVB that report visual status as listed in Table 3 and shown in Figure 1b.Upon powerup, D1 should be illuminated.
3.6. JumpersThere are seven jumper locations on the Si5xx-PROG-EVB as listed in Table 4. The default or pre-loaded jumpersare shown in Figure 1a.
Table 3. Si5xx-PROG-EVB LEDs
LED ON OFF
D1 VDD3p3 volts is present VDD3p3 volts is NOT present
D2 Ext3p3V volts is present Ext3p3V volts is NOT present
D3 Reserved Reserved
D4 USB access in progress No USB access in progress
Table 4. Si5xx-PROG-EVB Jumpers
Jumper Block Reference Function
J5 Manual (on-board) VDD_DUT adjust (see Table 1)
J11 VDD_DUT select: 1-2: External voltage (from J1) 2-3: On-board regulator
J13 I2C/Vc selector: 1-2: I2C communication 3-4: Ext Vc input (Si57x)
J16 Output enable (Si57x): 1-2: OE is HIGH 3-4: OE is LOW
J17 Manual shutdown of I2C port for Si514 (also controllable via SW)
J19 Manual shutdown of I2C port for Si57x (also controllable via SW)
J20 I2C communication access port 3-4: SCL connection to MCU 5-6: SDA connection to MCU
8 Rev. 0.3
3.7. External I2C Communication It is possible to use an external I2C controller to communicate with the DUT. To do this, remove the jumpersinstalled in J20 and connect the external I2C harness to J20. Grounded pins (1-2, 7-8) are there for grounding theharness. Pins 4 and 6 can be driven as SCL and SDA, respectively.
3.8. Si5xx-PROG-EVB Digital Control SignalOne normally static digital input control signal routes to the Si5xx: Output Enable or OE. By default, the OE signalis pulled HIGH on the Si5xx-PROG-EVB and may be pulled low by installing a jumper at J16.
3.9. Si5xx-PROG-EVB Voltage Control SignalAn external voltage control signal may be applied to the control voltage modulation input at the J12 header(VCO_IN). This voltage supplies the control voltage or voltage modulation input to the DUT. J13 should be installedin the 2-3 position.
3.10. Output TerminationsThe Si5xx-PROG-EVB can support four different output formats: CMOS, LVPECL, LVDS, and HCSL. There areoutput resistors that are needed to accompany each format. Table 5 shows which resistors are needed for eachoutput:
Table 5. Output Termination Installation Definition
Output Format
R36 R40 R35 R44 R37 R38 R29 R34 R43 R45
CMOS 10 10 NP NP NP NP NP NP NP NP
LVPECL 0 0 130 130 NP NP NP 0 NP 0
LVDS 0 0 NP NP NP NP NP NP NP NP
HCSL 0 0 NP NP NP NP NP NP NP NP
Rev. 0.3 9
4. Configuring the Si5xx-PROG-EVB
Figure 3. Si5xx-PROG-EVB Typical Configuration
Si5xx-EVB
1.8-3.3V Power Supply(Optional) +-
Optional Voltage Source(for Si571)
+-
+-
+-
Optional Oscilloscope or other Instrument
Frequency Counter
CLKN
CLKP
VC
Optional I2C Device SCL/SDA
PC
USB
10 Rev. 0.3
5. Software Guide
The evaluation kit includes software called Programmable Oscillator Software, which consists of several tools:
Programmable Oscillator Calculator—Program new dividers and output frequencies in the device using large and small frequency programming procedures. This can run with or without an EVB connected to the computer.
Register Programmer—Program individual registers on the oscillator device on the EVB.
Si57x/9x Register Programmer—Program Si570/571/598/599 specific registers.
Register Viewer—View all the register values on the oscillator installed on the EVB.
User Guide—Read more help information on using the software.
Spreadsheet Finder for HS_DIV and N1—Use an Excel spreadsheet to find the Si570/571/598/599 dividers. No EVB is required.
5.1. Programmable Oscillator Software Installation
The following sections describe how to install and use the software. There is a readme.txt file with the installation files as well as a software user guide installed with the software.
5.2. System Requirements Microsoft Windows® 2000, XP, Vista, 7
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.
5.3. 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:
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 but can run under other versions. Contact your systemadministrator for more details.
5.4. Programmable Oscillator Software InstallationThe Programmable Oscillator Software is installed from the ProgOscSwInstall.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 Programmable Oscillator Software. Select one of the items in the menu including the User Guide to get more details on how to run the software.
5.5. Programmable Oscillator Software Uninstall Close all the programs and help files before running the uninstaller to ensure complete removal of the software. Touninstall the software, use the Add and Remove Programs utility in the Control Panel or click Start Programs Silicon Laboratories Programmable Oscillator Software Uninstaller.
Note: The driver software must be uninstalled separately.
Rev. 0.3 11
6. Schematic
VCO in
VDD
OK
Optional
POWER IN
VDD5V OK
In-Circuit
Programming
Connector
4-3 = 2.5V
2-1 = 3.3V
OPEN = 1.8V
Vout = 1.25*(1+Rtop/Rbot)
.5%
.5%
.5%
CLKO
CLKOB
3) Install for VCOs
4) 100 OHM Diff. Impedance, 50 OHM to GND
2) Mount close to pins 1 & 2 of the DUT
Notes:
1) Mount close to DUT
Note 3
Note 1
NOTE 4
Sprinkle around DUT
Output Resistor Configurations for Various
Output Formats (R in Ohms)
Output
Format
CMOS
LVPECL
LVDS
HCSL
- NP = No Pop
10
0 0
R36
R40
R35
R44
R37
R38
R29
R34
R43
R45
10
NP
NP
NP
NP
NP
NP
NP
NP
0130
130
NP
NP
NP
NP
0NP
NP
NP
NP
NP
NP
00
NP
NP
NP
NP
NP
NP
NP
NP
NP
NP
Note 3
(No Pop) (No Pop)
(No Pop)
(No Pop)
(No Pop)
(No Pop)
Output
Enable
Disable
Pins 1&2
Com.
Disable
Pins 7&8
Com.
00
PW
R_S
EL1
PW
R_S
EL2
VC
_Filt
er
MC
U_R
ST
NM
CU
_C2C
K
MC
U_C
2CK
VD
D_M
ID
SD
AS
CL
Boa
rd_I
D
VD
D_M
ID
Boa
rd_I
D
VC
_Filt
er
SD
A
SC
L
EN
1E
N2
EN
1
EN
2
Brd
_Cnf
g0B
rd_C
nfg1
Brd
_Cnf
g2
Brd
_Cnf
g7B
rd_C
nfg6
Brd
_Cnf
g3B
rd_C
nfg4
Brd
_Cnf
g5
Brd
_Cnf
g1B
rd_C
nfg2
Brd
_Cnf
g3B
rd_C
nfg4
Brd
_Cnf
g5B
rd_C
nfg6
Brd
_Cnf
g7
Brd
_Cnf
g0
VD
D3P
3
Ext
3p3V
VD
D3P
3
VD
D3P
3
VD
D3P
3
VD
D_D
UT
VB
US
_5V
VD
D_D
UT
VD
D_D
UT
VB
US
_5V
VB
US
_5V
VD
D_D
UT
VD
D_D
UT
Ext
3p3V
VD
D_D
UT
VB
US
_5V
R1
127
R1
127
R26 0 ohmR26 0 ohm
C13
100NC13
100N
C7
4.7u
FC
74.
7uF
R19 8.25
KR
19 8.25
K
J8J8
1
R9
1KR9
1K
TP
3T
P3 1
R2
127
R2
127
J17
J17
12
C2
2200
pFC
222
00pF
A CD4
Red
A CD4
Red
2 1
C14
100N
C14
100N
TP
7T
P7
1C
610
0NC
610
0N
R18 17
.4K
R18 17
.4K
+C
433
UF
+C
433
UF
J11
J11
123
U7
Si5
14_7
0_71
PIN
Lab
ling:
()=5
70 o
r 57
1,51
4 ot
hrw
z
U7
Si5
14_7
0_71
PIN
Lab
ling:
()=5
70 o
r 57
1,51
4 ot
hrw
z
SD
A(V
c)1
SC
L(O
E)
2
GN
D3
CLK
P4
CLK
N5
VD
D6
NC(SDA)7
NC(SCL)8
C24
5pF
C24
5pF
J16
J16
1 2 3
TP
5T
P5
1
R45 0 ohm
R45 0 ohm
R17
22.6
KR
1722
.6K
J20
J20
12
34
56
78
R37
49.9
R37
49.9
R14
4.99
KR
144.
99K
R7
49.9
R7
49.9
R5
0 oh
mR
50
ohm
C11
1UFC11
1UF
R28
200K
R28
200K
R11 1KR11 1K
TP
4T
P4 1
TP
8T
P8
1
R27 0 ohmR27 0 ohm
C15
4.7u
FC
154.
7uF
J4J4
12
34
56
7 98 10
R3
301
R3
301
C1
100N
C1
100N
R13
4.99
KR
134.
99K
C12
100N
C12
100N
R20 0 ohmR20 0 ohm
U8
PC
A93
06
U8
PC
A93
06
GN
D
1VR
EF12
SC
L13
SD
A1
4S
DA
25
SC
L26
VR
EF27
EN
8
U4
MIC
5301
U4
MIC
5301
Vin
1
GN
D
2
EN
3A
DJ
4V
out
5
TP
6T
P6
1
J5J5
12
34
R12
10R
1210
R22 0 ohmR22 0 ohm
J6J6
1
R42
2.2K
R42
2.2K
SW
1N
OS
W1
NO
12
43
R43
2KR43
2K
C17
100N
C17
100N
TP
1T
P1 1
TP
10T
P101
R46
0 oh
mR
460
ohm
C16
100NC16
100N
R41
2.2K
R41
2.2K
U1
SP
0503
BA
HT
U1
SP
0503
BA
HT
123 4
C21
100N
C21
100N
R47
0 oh
mR
470
ohm
R33
2.2K
R33
2.2K
R38
49.9
R38
49.9
R39
200K
R39
200K
U6
PC
A93
06
U6
PC
A93
06
GN
D
1VR
EF12
SC
L13
SD
A1
4S
DA
25
SC
L26
VR
EF27
EN
8
TP
9T
P9
1
R44
130
R44
130
+C
333
UF
+C
333
UF
J12
J12
1 2 3
R24 0 ohmR24 0 ohm
C20
100N
C20
100N
R34
0 oh
mR
340
ohm
C23
100NC23
100N
R8
0 oh
mR
80
ohm
C18
5pF
C18
5pF
C8
2200
pF
C8
2200
pF
J2
US
B
J2
US
B
V1
Gnd4
D-2
D+3
S1
5
S2
6
J19
J19
12
R23 0 ohmR23 0 ohm
R16
4.99
K
R16
4.99
K
A CD3 Red
A CD3 Red
2 1
TP
2T
P2 1
R4
301
R4
301
R31 4.99K
R31 4.99K
R10 1KR10 1K
**J1 **J1
12
R32
2.2K
R32
2.2K
C22
100N
C22
100N
J18
J18
1
32
45
J13
J13
1 2 3
L2L2
12
Ser No.
U5
DS
2411
Ser No.
U5
DS
2411
Vcc6
GND1
I/O2
NC
13
NC
24
NC
35
R21 0 ohmR21 0 ohm
R40
0 oh
m
R40
0 oh
m
R15
10KR
1510
K
C26
1UF
C26
1UF
R25 0 ohmR25 0 ohm
R29
2KR29
2K
AC
D2 Grn
AC
D2 Grn
1 2
C25
100N
C25
100N
C5
22pF
C5
22pF
C9
100N
C9
100N
C19 10
0NC
19 100N
R35 13
0R
35 130
J9J9
1
J14
J14
1
32
45
R6
100
R6
100
L1L1
12
J10
J10 1
R30 4.99K
R30 4.99K
AC
D1 Grn
AC
D1 Grn
1 2
C10
4.7u
FC
104.
7uF
U9 C80
51F
342
U9 C80
51F
342
P0.
11
P0.
02
GND3
D+
4
D-
5
VDD6
REGIN7
VB
US
8
RS
T/C
2CK
9
P3.
0/C
2D10
P2.
711
P2.
612
P2.
513
P2.
414
P2.
315
P2.
216
P2.
117
P2.
018
P1.
719
P1.
620
P1.
521
P1.
422
P1.
323
P1.
224
P1.
125
P1.
026
P0.
727
P0.
628
P0.
529
P0.
430
P0.
331
P0.
232
R36
0 oh
m
R36
0 oh
m
J7J7
1
Fig
ure
4.S
i5xx
-PR
OG
-EV
B (
Un
iver
sal I
2C
XO
/VC
XO
)
12 Rev. 0.3
7. Bill of Materials
Table 6. Si5xx-PROG-EVB/Si514-PROG-EVB/Si570-PROG-EVB Bill of Materials1
Item Qty Reference Value Mfr Manufacturer PN PCB Footprint
1 14 C1,C6,C9,C12,C13,C14,C16,C17,C19,C20,C21,C22,C23,
C25
100 nF Venkel C0603X7R160-104KNE SM_C_0603
2 2 C2,C8 2200 pF Venkel C0603X7R160-222KNE SM_C_0603
3 2 C3,C4 33 µF Venkel TA006TCM336KBR EIA 3528
4 1 C5 22 pF Venkel C0603C0G500-220KNE SM_C_0603
5 3 C7,C10,C15 4.7 µF Venkel C0805X5R6R3-475KNE SM_C_0805
6 2 C11,C26 1 µF Venkel C0603X7R6R3-105KNE SM_C_0603
7 2 D1,D2 Grn Panasonic LN1371G LED_gull
8 2 D3,D4 Red Lumex LN1271RAL LED_gull
9 1 J1 Phoenix_2_screw Phoenix MKDSN 1.5/2-5.08 Phoenix2pin-M_p2pitch
10 1 J2 USB FCI 61729-0010BLF USB_typeB
11 1 J4 5by2_Shrd_Hdr_SMT Sullins PPTC052LJBN-RC 5by2head-er_thruhole
12 1 J5 2by2_M_Hdr Sullins PBC36DAAN 2by2head-er_p1pitch
13 5 J6,J7,J8,J9,J10
Jmpr_1pin Tyco 87224-1 1by1header_TH
14 4 J11,J12,J13,J16
Jmpr_3pin Tyco 146225-3 3pin_p1pitch
15 2 J14,J18 SMA_VERT Johnson 142-0701-211 SMA_VERT
16 2 J17,J19 Jmpr_2pin Sullins PBC36DAAN 2by2head-er_p1pitch
17 1 J20 4X2 Header Sullins PBC04DFAN 4by2head-er_p1pitch
Notes:1. Outputs configured for LVPECL.2. Si514-PROG-EVB contains a presoldered 514CBA000118AAG device.3. Si570-PROG-EVB contains a presoldered 570ACA000118DG.
Rev. 0.3 13
18 2 L1,L2 Ferrite Murata BLM31A601S 1206
19 2 R1, R2 127 Venkel CR0603-16W-1270FT SM_R_0603
20 3 R3,R4 301 Venkel CR0603-16W-3010FT SM_R_0603
21 16 R5,R8,R20,R21,R22,R23,R24,R25,R26,R27,R34,R36,R40,R45,R46,
R47
0 Venkel CR0603-16W-000T SM_R_0603
22 1 R6 100 Venkel CR0603-16W-1000FT SM_R_0603
23 1 R7 49.9 Venkel CR0603-16W-49R9FT SM_R_0603
24 3 R9,R10,R11 1 k Venkel CR0603-16W-1001FT SM_R_0603
25 1 R12 10 Venkel CR0603-16W-10R0FT SM_R_0603
26 1 R15 10 k Venkel CR603-16W-1002FT SM_R_0603
27 5 R13,R14,R16,R30,
R31
4.99 k Venkel CR0603-16W-4991FT SM_R_0603
28 1 R17 22.6 k Venkel CR0603-16W-2262FT SM_R_0603
29 1 R18 17.4 k Venkel CR0603-16W-1742FT SM_R_0603
30 1 R19 8.25 k Venkel CR0603-16W-8251FT SM_R_0603
31 2 R28,R39 200 k Venkel CR0603-16W-2003FT SM_R_0603
32 4 R32,R33,R41,R42
2.2 k Venkel CR0603-16W-2201FT SM_R_0603
33 2 R35,R44 130 Venkel CR0603-16W-1300FT SM_R_0603
34 1 SW1 NO Mountain Switch
101-0161-EV 4pinSwitch
35 2 TP1,TP10 Test Point Key Stone 5001K .035" TH
36 1 U1 SP0503BAHT Little Fuse SP0503BAHT SOT143
37 1 U4 MIC5301 Micrel MIC5301YD5 SOT23-5
Table 6. Si5xx-PROG-EVB/Si514-PROG-EVB/Si570-PROG-EVB Bill of Materials1 (Continued)
Item Qty Reference Value Mfr Manufacturer PN PCB Footprint
Notes:1. Outputs configured for LVPECL.2. Si514-PROG-EVB contains a presoldered 514CBA000118AAG device.3. Si570-PROG-EVB contains a presoldered 570ACA000118DG.
14 Rev. 0.3
38 1 U5 DS2411 Maxim/Dallas
DS2411RP+ TSOC-6
39 2 U6,U8 PCA9306 TI PCA9306DCTR PSOP
40 1 U9 C8051F342 Silicon Labs C8051F342-GQ LQFP-32
Not Populated
412 U7 Si514_70_71 Silabs
42 R29,R43 2 k Venkel CR0603-16W-2001FT SM_R_0603
43 C18,C24 5 pF Venkel C0603X7R160-104KNE SM_C_0603
44 R37,R38 49.9 Venkel CR0603-16W-49R9FT SM_R_0603
45 TP2,TP3,TP4,TP5,TP6,TP7,TP8,TP9
Test Point Key Stone 5001K .035" TH
Part Order Code 514CBA000118AAG
Type I2C Programmable
Package 5x7 mm, 6-Pin
Output CMOS
Frequency Range 0.10–212.5 MHz
Starting Frequency 156.25 MHz
VDD 3.3 V
Temperature Stability ±25 ppm
Total Stability ±50 ppm
Opening Temperature Range –40 to 85 °C
Data Sheet http://www.silabs.com/support%20documents/technicaldocs/si514.pdf
Table 6. Si5xx-PROG-EVB/Si514-PROG-EVB/Si570-PROG-EVB Bill of Materials1 (Continued)
Item Qty Reference Value Mfr Manufacturer PN PCB Footprint
Notes:1. Outputs configured for LVPECL.2. Si514-PROG-EVB contains a presoldered 514CBA000118AAG device.3. Si570-PROG-EVB contains a presoldered 570ACA000118DG.
Rev. 0.3 15
Part Order Code 570ACA000118DG
Type I2C programmable
Package 5x7 mm, 8 pin
Output LVPECL
Frequency Range 10–945, 970–1134, 1213–1417.5 MHz
Starting Frequency 156.25 MHzVDD: 3.3 V
VDD 3.3 V
Total Stability 20 ppm
Opening Temperature Range –40 to 85 °C
Data Sheet http://www.silabs.com/support%20documents/technicaldocs/si570.pdf
18 Rev. 0.3
DOCUMENT CHANGE LIST
Revision 0.1 to Revision 0.2 Added ordering information and revised text to add
the Si514-PROG-EVB to the list of released EVBs.
Updated Table 5 on page 8.
Updated Figure 4 on page 11 (schematic).
Updated "7. Bill of Materials" on page 12 and notes.Described changes needed for the Si514-PROG-EVB.
Revision 0.2 to 0.3 Added ordering information and revised test for the
newly released Si570-PROG-EVB
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.
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