SI3210MPPQX-EVB [SILICON]
EVALUATION BOARD FOR THE Si3210/15/16 PROSLIC;型号: | SI3210MPPQX-EVB |
厂家: | SILICON |
描述: | EVALUATION BOARD FOR THE Si3210/15/16 PROSLIC |
文件: | 总41页 (文件大小:922K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
Si321xPPQx-EVB
EVALUATION BOARD FOR THE Si3210/15/16 PROSLIC®
8 kHz PCM signal generator and analyzer
Description
(e.g., Audio Precision System 2 and Audio Precision SIA-
2322 and/or Wandel and Goltermann PCM-4)
This document describes the operation of the Silicon
Laboratories ProSLIC device evaluation platform. The
®
devices supported by this document are the Si3210/15/
16 and Si3210M/15M/16M; both Si3201 and discrete
Features
interface topologies are included. Schematics and Silicon Laboratories ProSLIC device
layouts are provided for the various ProSLIC products.
The ProSLIC evaluation platform is designed to provide
observation of the ProSLIC’s functionality. The ProSLIC
platform consists of a ProSLIC motherboard, a device-
specific daughter card, and the ProSLIC LINC™
software. The ProSLIC LINC software is a Windows -
based program that can run in Microsoft Windows
environments.
All components necessary for linecard
implementation
Selectable secondary protection
Control I/O through standard Parallel Port
®
On-board PCLK and FSYNC clock generation for
stand-alone operation
PCM I/O set up for Audio Precision System 2 or
Wandel and Goltermann PCM-4
Equipment requirements:
Full access to PCM highway
PC running Windows NT, 2000, or XP
25-pin D male-male cable
Multiple daughter cards may be stacked for multi-
channel evaluation and daisy chain control
+5 V, 0.5 A power supply
ProSLIC power selection (3.3 or 5 V)
+3.3 V, 0.5 A power supply (optional)
+12 V, 0.5 A power supply (Si3210, Si3215, Si3216)
Optional equipment:
Related Documentation
ProSLIC LINC™ User Guide
Balanced audio generator and analyzer
(e.g., Audio Precision System 2 and/or HP TIMS set and/
or Wandel and Goltermann PCM-4)
Functional Block Diagram
GND +3.3 V +5 V VIN
Parallel Port
Power In
ProSLIC Motherboard
Si321x Daughter Card
On-Board
PCM Clock
Generator
PC running ProSLIC LINC
software
Audio
Generator/
Analyzer
RJ-11
Port
Rev. 1.2 7/08
Copyright © 2008 by Silicon Laboratories
Si321xPPQx-EVB
Si321xPPQx-EVB
Motherboard hardware schematics are found in Figures
25, 26, and 27.
1. Introduction
The ProSLIC Si321x evaluation platform is a modular
system consisting of a generic motherboard and one or
more Si321x device-specific daughter cards. Using the
EVB hardware and ProSLIC LINC™ software, one can
easily configure, control, and monitor Si321x operation.
Up to eight Si321x daughter cards may be stacked
vertically and accessed using uniquely-assigned
timeslots on the common PCM interface and the SPI in
daisy-chain mode.
All power and signal connections are made to the
motherboard as described in Table 2.
Signal requirements for ProSLIC operation are PCLK,
FS, and Serial IO. The ProSLIC motherboard has a
local oscillator with a programmable logic device to
provide the ProSLIC PCLK FS signals. The DIP switch
(S2) sets the PCLK frequency and controls the FS
enable. See Table 3 for S2 settings. Factory default
setting is for a 2.048 MHz PCLK with F5 enabled. JP3
and JP4 select this internal clock source or an external
PCM clock source. The ProSLIC motherboard has been
designed to directly connect to an Audio Precision SIA-
2322 Serial Interface Adapter through the 15 pin d-
connectors, P2 and P3 (not installed). See Table 5 for
the Audio Precision settings. The ProSLIC evaluation
board has also been designed to interface with a
Wandel and Goltermann PCM-4 through J8, J9, J10,
and J11 (not installed). See Table 6 for PCM-4 settings.
A header, J5 (not installed), allows access to the
1.1. ProSLIC LINC evaluation software
The ProSLIC LINC software is an executable program
that allows control and monitoring of the ProSLIC. It
utilizes the primary LPT port of a standard PC to
communicate to the ProSLIC’s SPI port.
To install the software, insert the Silicon Laboratories
ProSLIC CD into the computer. The setup routine can
be invoked by running the setup.exe program in the root
directory of the CD.
Invoking the ProSLIC LINC is achieved by double ProSLIC’s PCM signals for connection to other PCM
clicking the ProSLIC LINC icon. Refer to the ProSLIC testing devices or an actual telephone system PCM
LINC User Guide for software operation.
bus. TIP and RING of the two wire analog interface is
present at the RJ-11 connector, J1.
1.2. Si321xPPT-EVB ProSLIC Evaluation
Board Description
The ProSLIC evaluation board is voltage-programmable
with specific jumper settings. JP1 selects 3 or 5 V
ProSLIC operation. JP2 selects 3 or 5 V PCM source
level compatibility. These should be placed on the
expected setting. Table 4 shows a summary of JP1–4
settings.
Si321x EVB daughter cards currently supported by this
hardware solution are listed in Table 1 along with
supporting hardware schematics and layout references
included in this data sheet.
Power is connected to the ProSLIC at J3 and J4, and
supply connections are summarized in Table 1. The 5 V
is always required for the buffers, U2 and U3, to
interface to the parallel port. The ProSLIC can be
powered from 5 V or 3 V with the placement of a jumper
on JP1. The Protection Return connections on J6 are to
be connected to an appropriate ground for TIP/RING
fault testing. This return is tied to signal ground on
board, although it has a dedicated trace for high-current
conditions. Serial control of the ProSLIC is achieved by
toggling select bits of a standard parallel port. The
parallel port connection is available at P1 and J1.
Table 1. Supported Si321x EVB Daughter Cards
EVB Daughter Card Board Schematic Layout
Description
Figures
Figures
Si3210/5/6 QFN with Si3201
integrated line interface
1, , 3
4, 5, 6
Si3210/5/6 QFN with discrete
line interface
7, , 9
10, 11, 12
Si3210/5/6M QFN with Si3201 13, 14, 15 16, 17, 18
integrated line interface
The ProSLIC card can be daisy-chained by simply
stacking the cards. Stack up to eight cards by aligning
JS1–JS6 and pressing together. The ProSLIC LINC
Software allows channel-specific commands by clicking
the Daisy Chain button.
Si3210/5/6M QFN with discrete 19, 20, 21 22, 23, 24
line interface
2
Rev. 1.2
Si321xPPQx-EVB
1.3. ProSLIC Evaluation Board Setup
Table 2. Motherboard Power Connections
J2, J3, J4
To prepare the ProSLIC evaluation board for use,
perform the following steps:
Si321x
NC
Si321xM
NC
1. Set power supplies to 3.3 V, 5 V, and 12 V.
2. With these supplies off, connect them to J3 and J4
corresponding to the silk screen designators.
VBRING
VBHI
VBLO
GND
NC
NC
3. Connect the PC’s parallel port (LPT1) to P1 (or J1)
using a 25-pin D male-to-male cable.
NC
NC
4. Select the on-board PCM clock source, or select an
external PCM source, and connect an Audio
Precision SIA-2322 to P2 and P3 or a Wandel and
Goltermann PCM-4 to J8, J9, J10, and J11.
1
1
GND
GND
GND
GND
2
2
5. TIP/RING connection can be made from the RJ-11 to
a phone or telephony test equipment.
+3 V
+3.3 V
+3.3 V
+5 V
+5 V
+5 V
6. Invoke the ProSLIC LINC software.
3
3
+VIN
Notes:
+9 to 12 V
+5 V
7. Turn the power supplies on and press the ProSLIC
evaluation board reset button (S1).
1. All three GND connection points are electrically
connected on the board.
8. Click the “Reinitialize” button in the ProSLIC LINC
software panel
2. +3.3 V is only necessary if that is the desired VDD for
operation. Si321x chooses +3.3 V or +5 V based on
the SP1 of the motherboard (see schematic).
3. This may be changed based on application-specific
circuits. Consult the dc-dc converter spreadsheet for
other possible values.
The ProSLIC is now ready to perform its linecard
function.
Table 3. On-Board PCLK Settings (S2)
S2-1,2,3
S2-4
Unused
S2-5
Unused
S2-6
Unused
S2-7
S2-8
PCLK frequency
Unused
x
FS enable
0,0,0 = 8.192 MHz
0,0,1 = 4.096 MHz
0,1,0 = 2.048 MHz
0,1,1 = 1.024 MHz
1,x,x = 512 kHz
x
x
x
0 = FS disabled
1 = FS enabled
Note: 1 = on.
Table 4. JP1–4 Settings
1–2
Jumper Location
Default Factory
Setting
Jumper
Function
2–3
+5 V
VDD Level Select
VPCM Level Select
FSYNC Level Select
PCLK Source Select
JP1
JP2
JP3
JP4
+3 V
+3 V
1–2
2–3
1–2
1–2
+5 V
Internal
Internal
External
External
Rev. 1.2
3
Si321xPPQx-EVB
Table 5. Audio Precision SIA-2322 DIP Switch Setting
Receiver Mode
00000010 11111101
Note: 256 kHz PCLK and 8 kHz FS.
Transmitter Mode
00000010 11111101
00111001
01111001
0000001
01111001
Table 6. Wandel and Goltermann PCM-4 Settings
General Configuration
2.14
3.13
4.13
General Configuration
General Configuration
For µ-law Add the Following:
General Configuration
General Configuration
7.12
7.22
4
Rev. 1.2
Si321xPPQx-EVB
2. Schematics
S V B A T
1 4
1
1
2
2
I P I N T
2 5
V D D D
V D D A 2
V D D A 1
2 6
2 3
6
I R I N G P
2 2
I P E S T
1
2
1 3
N D G D
2 7
1 9
I R I N G N
2 1
1
1
2
2
N D G A
I P I P T
2 4
S R I N G E
1 5
S D I T H R U
3 1
3 2
3 3
3 4
3 5
3 6
3 7
3 8
1
S D O
S D I
S C L K
/ C S
/ I N T
P C L K
D R X
D T X
S F Y N C
/ R E S E T
2
3
S R I N G A C
1 7
T S T E
C
R R A
2 8
I P A S C T
1 6
C A R T
S R I N G D C
1 2
R R D C
S T I P D C
1 1
D C R T
Rev. 1.2
5
Si321xPPQx-EVB
2
4
1
3
2
4
1
3
2
4
1
3
2
4
1
3
2
4
6
8
1
3
5
7
9
9
7
5
3
1
1 0
8
2
1
3
5
7
9
9
7
5
3
1
1 0
4
8
6
4
2
6
6
4
2
8
1 0
1 0
6
Rev. 1.2
Si321xPPQx-EVB
D5
NI
c
c
c
Rev. 1.2
7
Si321xPPQx-EVB
3. Si321x-FM-DC1 Bill of Materials
Table 7. Si321x-FM-DC1 Bill of Materials
Item
Qty
Ref
Value
Rating
Tol
Dielectric
PCB
Mfr Part Number
Mfr
Footprint
1
4
C1,C2,
10 µF
10 V
±20%
X7R
1206
C1206X7R100-106MNE
Venkel
C30,C34
2
3
4
2
2
2
C3,C4
C5,C6
C9,C25
220 nF
22 nF
10 µF
100 V
100 V
100 V
±20%
±20%
±20%
X7R
X7R
Elec
1812
1206
18121C224MATA
12061C223MATA
ECA-2AM100
AVX
AVX
C100[6238]6
.3MMR
Pana-
sonic
5
6
3
4
C10,C14,
C26
0.1 µF
0.1 µF
100 V
16 V
16 V
±20%
±20%
±20%
X7R
X7R
X7R
1206
12061C104MATA
0603YC104MATA
AVX
C15,C16,
C17,C20
0603
AVX
7
2
1
C18,C19
D1
4.7 µF
ES1D
1206
C1206X7R160-475MNE
ES1D
Venkel
10
DO-214
Central
Semi
11
12
13
14
15
2
1
4
1
1
D3,D4
F1
Thyristor-
Diode
DO-214
P1101SC
Littelfuse
500 mA
F1206[60X6
0]
SSQ 500
Bel Fuse
Inc.
JS1,JS3,
JS4,JS5
SOCKET
5x2
CONN2X5-
SSQ
SSQ-1-05-24-F-D
SSM-102-L-DV-TR
TSM-102-02-T-DV
Samtec
Samtec
Samtec
JS2
SOCKET
2x2/SM
CONN2X2-
100-SSM
JS6
HDR 2x2/
SM
CONN2X2-
100-TSM
16
17
1
1
J1
J2
RJ-11
RJ11-6-SMT
CONN-1X3
555077-2
AMP
3M
HEADER
3X1
2303-6111TN
18
19
1
1
L1
L2
100 µH
1.7 A
IND[220X15
0]SPD
SPD127-104
API
Delevan
47 µH
150 mA
IND-
NLC322522T-470K
TDK
NLC3225
20
21
22
1
2
2
Q7
FZT953
2222
SOT-223
SOT-23
FZT953
MMBT2222
F1250T
Zetex
Q8,Q9
RF1,RF2
Motorola
Littelfuse
TeleLink
F350[145X1
57]
23
24
25
26
2
2
2
2
R1,R3
R2,R4
200 k
105 k
100 k
4.02 k
1/10 W
1/10 W
1/10 W
1/10 W
±1%
±1%
±1%
±1%
0805
0805
0805
0805
CR0805-10W-2003FT
CR0805-10W-1053FT
CR0805-10W-1003FT
CR0805-10W-4021FT
Venkel
Venkel
Venkel
Venkel
R5,R105
R6,R7
8
Rev. 1.2
Si321xPPQx-EVB
Table 7. Si321x-FM-DC1 Bill of Materials (Continued)
Item
Qty
Ref
Value
Rating
Tol
Dielectric
PCB
Footprint
Mfr Part Number
CR0805-10W-4700FT
CR0805-10W-4701FT
CR0805-10W-4701FT
Mfr
27
2
R8,R9
470
(Si3210-FM)
1/10 W
±1%
0805
Venkel
4.7 k
(Si3215-FM)
4.7 k
(Si3216-FM)
28
29
30
31
32
2
1
2
1
3
R14,R26
R15
40.2 k
243
1/10 W
1/10 W
1/10 W
1/4 W
±1%
±1%
±5%
±5%
±1%
0805
0805
0805
1206
0805
CR0805-10W-4022FT
CR0805-10W-2430FT
CR0805-10W-201JT
CR1206-4W-R68JT
CR0805-10W-5622FT
Venkel
Venkel
Venkel
Venkel
Venkel
R16,R17
R18
200
0.68
56.2 k
R19,R20,
R25
1/10 W
33
34
35
36
37
38
1
1
1
1
2
4
R21
R28
15
26.1 k
665 k
37.4 k
10
1/10 W
1/10 W
1/10 W
1/10 W
1/10 W
1/10 W
±1%
±1%
±1%
±1%
±1%
±1%
0805
0805
0805
0805
0805
0805
CR0805-10W-15R0FT
CR0805-10W-2612FT
CR0805-10W-6653FT
CR0805-10W-3742FT
CR0805-10W-10R0FT
CR0805-10W-0000FT
Venkel
Venkel
Venkel
Venkel
Venkel
Venkel
R29
R36
R40,R41
R43,R45,
R46,R47
0
39
40
2
3
R102,R104
90.9 k
1/10 W
±1%
0805
CR0805-10W-9092FT
151-205
Venkel
GND, TIP,
RING
Test Point
Mouser
41
1
U1
Si3210-FM
Si3215-FM
Si3216-FM
Si3201
MLF38N5X7
-0.5P
Si3210-FM Rev E
Si3215-FM Rev C
Si3216-FM Rev C
Si3201-FS Rev E
Silabs
MLF38N5X7
-0.5P
MLF38N5X7
-0.5P
42
1
U2
SOIC16
Silabs
Teccor
Not Installed Components
43
3
C31,C32,
C33
44
45
1
3
D5
P1101CA2
95 V
DO-214AA-3
P1101CA2
R42,R44,
R48
Rev. 1.2
9
Si321xPPQx-EVB
Figure 4. Si321xFM-DC1-EVB with Si3201 Primary Assembly
Figure 5. Si321xFM-DC1-EVB with Si3201 Primary Side
Figure 6. Si321xFM-DC1-EVB with Si3201 Secondary Side
10
Rev. 1.2
Si321xPPQx-EVB
S V B A T
1 4
1
1
2
2
I P I N T
2 5
V D D D
V D D A 2
V D D A 1
2 6
2 3
6
I R I N G P
2 2
I P E S T
1
2
1 3
N D G D
2 7
1 9
I R I N G N
2 1
1
1
2
2
N D G A
I P I P T
2 4
S R I N G E
1 5
S D I T H R U
3 1
3 2
3 3
3 4
3 5
3 6
3 7
3 8
1
S D O
S D I
S C L K
/ C S
/ I N T
P C L K
D R X
D T X
S F Y N C
/ R E S E T
2
3
S R I N G A C
1 7
T S T E
C
R R A
2 8
I P A S C T
1 6
C A R T
S R I N G D C
1 2
R R D C
S T I P D C
1 1
D C R T
Rev. 1.2
11
Si321xPPQx-EVB
2
4
1
3
2
4
1
3
2
4
1
3
2
4
1
3
2
4
6
8
1
3
5
7
9
9
7
5
3
1
1 0
8
2
1
3
5
7
9
9
7
5
3
1
1 0
4
8
6
4
2
6
6
4
2
8
1 0
1 0
12
Rev. 1.2
Si321xPPQx-EVB
D5
NI
c
c
c
Rev. 1.2
13
Si321xPPQx-EVB
4. Si321x-FM-DCX Bill of Materials
Table 8. Si321x-FM-DCX Bill of Materials
Item
Qty
4
Ref
Value
Rating
Tol
Dielectric
PCB
Footprint
Mfr Part Number
Mfr
1
2
C1,C2,
C30,C34
10 µF
10 V
±20%
±20%
X7R
CC1206
C1206X7R100-106MNE
Venkel
Venkel
2
C3,C4
220 nF
100 V
X7R
CC1812
C1210X7R101-
224MNER
3
4
2
5
C5,C6
22 nF
100 V
100 V
±20%
±20%
X7R
X7R
CC1206
CC1206
12061C223MATA
12061C104MATA
AVX
AVX
C7,C8,C10,
C14,C26
0.1 µF
5
6
2
3
3
1
2
1
4
1
1
C9,C25
10 µF
0.1 µF
0.1 µF
ES1D
100 V
16 V
50 V
±20%
±20%
±20%
Elec
X7R
X7R
C100[6238]
6.3MMR
ECA-2AM100
Pana-
sonic
C15,C16,
C17
CC0603
0603YC104MATA
AVX
7
C31,C32,
C33
CC0805
C0805X7R500-
104MNER
Venkel
8
D1
D3,D4
F1
DO-214AA-
REV
ES1D
Central
Semi
9
Thyristor-
Diode
DO-214AA-
REV
P1101SC
Littelfuse
10
11
12
13
500 mA
F2410-SSQ
SSQ 500
Bel Fuse
Inc.
JS1,JS3,
JS4,JS5
CONN2X5-
SSQ
SSQ-1-05-24-F-D
TSM-102-02-T-DV
SSM-102-L-DV-TR
Samtec
Samtec
Samtec
JS2
CONN2X2-
100-SSM
JS6
CONN2X2-
100-TSM
14
15
1
1
J1
J2
RJ-11
RJ11-6-SMT
CONN-1X3
555077-2
AMP
3M
HEADER
3X1
2303-6111TN
16
17
18
19
1
1
4
2
L1
L2
100 µH
1.7 A
IND[220X15
0]SPD
SPD127-104
NLC322522T-470K
CMPT5401
API
Delevan
47 µH
150 mA
IND-
NLC3225
TDK
Q1,Q2,
Q3,Q4
CMPT5401
CZT5551
SOT-23
Central
Semi
Q5,Q6
SOT-223
CZT5551
Central
Semi
20
21
22
1
2
2
Q7
FZT953
MMBT2222
F1250T
SOT-223
SOT-23
FZT953
MMBT2222
F1250T
Zetex
Q8,Q9
RF1,RF2
On Semi
Littelfuse
F350
[145X157]
23
2
R1,R3
200 k
1/10 W
±1%
RC0805
CR0805-10W-2003FT
Venkel
14
Rev. 1.2
Si321xPPQx-EVB
Table 8. Si321x-FM-DCX Bill of Materials (Continued)
Item
Qty
Ref
Value
Rating
Tol
Dielectric
PCB
Mfr Part Number
Mfr
Footprint
24
6
R2,R4,R5,
R102,
100 k
1/10 W
±1%
RC0805
CR0805-10W-1003FT
Venkel
R104,R105
25
26
2
2
R6,R7
R8,R9
80.6
1/4 W
±1%
±1%
RC1210
RC0805
CR1210-4W-80R6FT
CR0805-10W-4700FT
Venkel
Venkel
470
1/10 W
(Si3210-FM)
4.7 k
(Si3215-FM)
CR0805-10W-4701FT
CR0805-10W-4701FT
4.7 k
(Si3216-FM)
27
28
29
30
31
32
33
2
2
1
1
2
1
4
R10,R11
R12,R13
R14
10
5.1 k
40.2 k
243
1/10 W
1/10 W
1/10 W
1/10 W
1/10 W
1/4 W
±5%
±5%
±1%
±1%
±5%
±5%
±1%
RC0805
RC0805
RC0805
RC0805
RC0805
RC1206
RC0805
CR0805-10W-100JT
CR0805-10W-512JT
CR0805-10W-4022FT
CR0805-10W-2430FT
CR0805-10W-201JT
CR1206-4W-R68JT
CR0805-10W-5622FT
Venkel
Venkel
Venkel
Venkel
Venkel
Venkel
Venkel
R15
R16,R17
R18
200
0.68
56.2 k
R19,R20,
R25,R26
1/10 W
34
35
36
37
38
39
1
2
1
1
1
4
R21
R23,R24
R28
15
3.0 k
26.1 k
665 k
37.4 k
0
1/10 W
1/10 W
1/10 W
1/10 W
1/10 W
1/16 W
±1%
±5%
±1%
±1%
±1%
±1%
RC0805
RC0805
RC0805
RC0805
RC0805
RC0805
CR0805-10W-15R0FT
CR0805-10W-302JT
CR0805-10W-2612FT
CR0805-10W-6653FT
CR0805-10W3742FT
CR0805-16W-0000FT
Venkel
Venkel
Venkel
Venkel
Venkel
Venkel
R29
R36
R43,R45,
R46,R47
40
41
3
1
GND, TIP,
RING
Test Point
151-205
Mouser
Silabs
U1
Si3210-FM
Si3215-FM
Si3216-FM
MLF38N
5X7-0.5P
Si3210-FM Rev E
Si3215-FM Rev C
Si3216-FM Rev C
Not Installed Components
41
42
1
3
D5
NI
NI
95 V
DO-214AA-3
P1101CA2
Teccor
R42,R44,
R48
Rev. 1.2
15
Si321xPPQx-EVB
Figure 10. Si321xFM-DCX-EVB with Discretes Primary Assembly
Figure 11. Si321xFM-DCX-EVB with Discretes Primary Side
Figure 12. Si321xFM-DCX-EVB with Discretes Secondary Side
16
Rev. 1.2
Si321xPPQx-EVB
1
2
2
1
2
1
1
2
S V B A T
1 4
1
1
2
2
I P I N T
2 5
1
1
2
2
V D D D
V D D A 2
V D D A 1
2 6
2 3
6
I R I N G P
2 2
I P E S T
1
2
1 3
N D G D
2 7
1 9
I R I N G N
2 1
1
1
2
2
N D G A
I P I P T
2 4
S R I N G E
1 5
S D I T H R U
3 1
3 2
3 3
3 4
3 5
3 6
3 7
3 8
1
S D O
S D I
S C L K
/ C S
/ I N T
P C L K
D R X
D T X
1
2
S F Y N C
/ R E S E T
2
3
2
2
1
1
S R I N G A C
1 7
1
1
2
2
T S T E
C
R R A
2 8
I P A S C T
1 6
C A R T
S R I N G D C
1 2
R R D C
S T I P D C
1 1
D C R T
1
1
2
2
Rev. 1.2
17
Si321xPPQx-EVB
2
4
1
3
2
4
1
3
2
4
1
3
2
4
1
3
2
4
6
8
1
3
5
7
9
9
7
5
3
1
1 0
8
2
1
3
5
7
9
9
7
5
3
1
1 0
4
8
6
4
2
6
6
4
2
8
1 0
1 0
18
Rev. 1.2
Si321xPPQx-EVB
D5
NI
c
c
c
Rev. 1.2
19
Si321xPPQx-EVB
5. Si321xM-FM-DC1 Bill of Materials
Table 9. Si321xM-FM-DC1 Bill of Materials
Item
Qty
Ref
Value
Rating
Tol
Dielectric
PCB Footprint
Mfr Part Number
Mfr
1
4
C1,C2,
10 µF
10 V
±20%
X7R
CC1206
C1206X7R100-106MNE Venkel
C30,C34
2
2
C3,C4
220 nF
100 V
±20%
X7R
CC1812
CC1206
C1210X7R101-
224MNER
Venkel
AVX
3
4
2
2
C5,C6
22 nF
10 µF
100 V
100 V
±20%
±20%
X7R
Elec
12061C223MATA
ECA-2AM100
C9,C25
C2.5X6.3MM-
RAD
Pana-
sonic
5
6
2
4
C14,C26
0.1 µF
0.1 µF
100 V
16 V
±20%
±20%
X7R
X7R
CC1206
CC0603
12061C104MATA
0603YC104MATA
AVX
AVX
C15,C16,
C17,C20
7
8
9
2
1
1
C18,C19
C27
4.7 µF
470 pF
16 V
±20%
±20%
X7R
X7R
1206
C1206X7R160-475MNE Venkel
100 V
CC1206
12061C470MATA
CMR1U-02M
AVX
D1
CMR1U-02M
DO-214AA-REV
Central
Semi
10
2
D3,D4
F1
Thyristor-
Diode
DO-214AA-REV
P1101SC
Littelfuse
11
12
1
4
Fuse
0.5 A
F1206[60X60]
R451.500
Littelfuse
Samtec
JS1,JS3,
JS4,JS5
CONN2X5-SSQ
SSQ-1-05-24-F-D
13
14
1
1
JS2
CONN2X2-100-
SSM
SSM-102-L-DV-TR
TSM-102-02-T-DV
Samtec
Samtec
JS6
CONN2X2-100-
TSM
15
16
1
1
J1
J2
RJ-11
RJ11-6-SMT
CONN-1X3
555077-2
AMP
3M
HEADER
3X1
2303-6111TN
17
18
1
1
L2
47 µH
150 mA
1/10 W
IND-NLC3225
SOT-223
NLC322522T-470K
IRLL014N
TDK
M1
IRLL014N
Intl Rec-
tifier
19
20
21
1
2
3
Q9
MMBT2222
TeleLink
200 k
SOT-23
F350[145X157]
RC0805
MMBT2222
F1250T
Motorola
Littelfuse
Venkel
RF1,RF2
R1,R3,
R23
±1%
CR0805-10W-2003FT
22
23
24
2
2
2
R2,R4
R5,R105
R6,R7
105 k
100 k
4.02 k
1/10 W
1/10 W
1/10 W
±1%
±1%
±1%
RC0805
RC0805
RC0805
CR0805-10W-1053FT
CR0805-10W-1003FT
CR0805-10W-4021FT
Venkel
Venkel
Venkel
20
Rev. 1.2
Si321xPPQx-EVB
Table 9. Si321xM-FM-DC1 Bill of Materials (Continued)
Item
Qty
Ref
Value
Rating
Tol
Dielectric
PCB Footprint
Mfr Part Number
Mfr
25
2
R8,R9
475
1/10 W
±1%
RC0805
CR0805-10W-4750FT
Venkel
(Si3210M)
4.7 k
(Si3215M)
CR0805-10W-4701FT
CR0805-10W-4701FT
4.7 k
(Si3216M)
26
27
28
29
30
31
32
33
34
35
36
2
1
1
2
2
1
1
1
1
2
4
R14,R26
R15
40.2 k
243
0.1
1/10 W
1/10 W
1/4 W
±1%
±1%
±1%
±1%
±5%
±1%
±1%
±5%
±1%
±1%
±5%
RC0805
RC0805
CC1206
RC0805
RC0805
RC0805
RC0805
RC0805
RC0805
RC0805
RC0805
CR0805-10W-4022FT
CR0805-10W-2430FT
CR1206-4W-R100FT
CR0805-10W-1652FT
CR0805-10W-150JT
CR0805-10W-2612FT
CR0805-10W-6653FT
CR0805-10W-000JT
CR0805-10W-3742FT
CR0805-10W-10R0FT
CR0805-10W-000JT
Venkel
Venkel
Venkel
Venkel
Venkel
Venkel
Venkel
Venkel
Venkel
Venkel
Venkel
R18
R19,R20
R21,R22
R28
16.5 k
15
1/10 W
1/10 W
1/10 W
1/10 W
1/10 W
1/10 W
1/10 W
1/10 W
26.1 k
665 k
0
R29
R32
R36
37.4 k
10
R40,R41
R43,R45,
R46,R47
0
37
38
2
3
R102,
R104
90.9 k
1/10 W
±1%
RC0805
CR0805-10W-9092FT
151-205
Venkel
TIP,
RING,
GND
Test Point
Mouser
39
40
1
1
T1
Transformer
XFMR-CTX01-
15275
31353R-02
Midcom
Silabs
U1
Si3210M-FM
Si3215M-FM
Si3216M-FM
Si3201
MLF38N5X7-0.5P
MLF38N5X7-0.5P
MLF38N5X7-0.5P
SO16E
Si3210M-FM Rev E
Si3215M-FM Rev C
Si3216M-FM Rev C
Si3201-FS Rev E
41
1
U2
Silabs
Not Installed Components
42
NI
C31,C32,
C33
NI
CC0805
43
44
NI
NI
D5
NI
NI
95 V
DO-214AA-3
RC0805
P1101CA2
Littelfuse
R33,R34,
R42,R44,
R48
Rev. 1.2
21
Si321xPPQx-EVB
Figure 16. Si321xM-FM-DC1-EVB with Si3201 Primary Assembly
Figure 17. Si321xM-FM-DC1-EVB with Si3201 Primary Side
Figure 18. Si321xM-FM-DC1-EVB with Si3201 Secondary Side
22
Rev. 1.2
Si321xPPQx-EVB
1
2
S V B A T
1 4
1
1
2
2
I P I N T
2 5
V D D D
V D D A 2
V D D A 1
2 6
2 3
6
I R I N G P
2 2
I P E S T
1
2
1 3
N D G D
2 7
1 9
I R I N G N
2 1
1
1
2
2
N D G A
I P I P T
2 4
S R I N G E
1 5
S D I T H R U
3 1
3 2
3 3
3 4
3 5
3 6
3 7
3 8
1
S D O
S D I
S C L K
/ C S
/ I N T
P C L K
D R X
D T X
S F Y N C
/ R E S E T
2
3
S R I N G A C
1 7
T S T E
C
R R A
2 8
I P A S C T
1 6
C A R T
S R I N G D C
1 2
R R D C
S T I P D C
1 1
D C R T
Rev. 1.2
23
Si321xPPQx-EVB
2
4
1
3
2
4
1
3
2
4
1
3
2
4
1
3
2
4
6
8
1
3
5
7
9
9
7
5
3
1
1 0
8
2
1
3
5
7
9
9
7
5
3
1
1 0
4
8
6
4
2
6
6
4
2
8
1 0
1 0
24
Rev. 1.2
Si321xPPQx-EVB
D5
NI
c
c
c
Rev. 1.2
25
Si321xPPQx-EVB
6. Si321xM-FM-DCX Bill of Materials
Table 10. Si321xM-FM-DCX Bill of Materials
Item Qty
Ref
Value
Rating
Tol Dielectric PCB Footprint
Mfr Part Number
Mfr
1
4
C1,C2,
C30,C34
10 µF
10 V
±20%
X7R
CC1206
C1206X7R100-
106MNE
Venkel
2
2
C3,C4
220 nF
100 V ±20%
X7R
CC1812
C1210X7R101-
224MNER
Venkel
3
4
2
4
C5,C6
22 nF
100 V ±20%
100 V ±20%
X7R
X7R
CC1206
CC1206
12061C223MATA
12061C104MATA
AVX
AVX
C7,C8,
0.1 µF
C14,C26
5
6
2
3
C9,C25
10 µF
100 V ±20%
Elec
X7R
C2.5X6.3MM-
RAD
ECA-2AM100
0603YC104MATA
12061C471MATA
Pana-
sonic
C15,C16,
C17
0.1 µF
16 V
±20%
CC0603
AVX
7
8
1
3
C27
470 pF
0.1 µF
100 V ±20%
100 V ±20%
X7R
X7R
CC1206
CC0805
AVX
C31,C32,
C33
C0805X7R101-
104MNER
Venkel
9
1
2
D1
D3,D4
F1
ES1D
DO-214AA-REV
DO-214AA-REV
ES1D
Central
Semi
10
Thyristor-
Diode
P1101SC
Littelfuse
11
12
1
4
FUSE/SM
1.5 A
6.1x1.45
R0451 01.5
Littlefuse
Samtec
JS1,JS3,
JS4,JS5
CONN2X5-SSQ
SSQ-1-05-24-F-D
13
14
1
1
JS2
CONN2X2-100-
SSM
SSM-102-L-DV-TR
TSM-102-02-T-DV
Samtec
Samtec
JS6
CONN2X2-100-
TSM
15
16
1
1
J1
J2
RJ-11
RJ11-6-SMT
CONN-1X3
555077-2
AMP
3M
HEADER
3X1
2303-6111TN
17
18
1
1
L2
47 µH
150 mA
IND-NLC3225
SOT-223
NLC322522T-470K
IRLL014N
TDK
M1
IRLL014N
Intl Recti-
fier
19
20
4
2
Q1,Q2,
Q3,Q4
CXT5401
CZT5551
SOT89
CXT5401
CZT5551
Central
Semi
Q5,Q6
SOT-223
Central
Semi
21
22
23
1
2
3
Q9
MMBT2222
TeleLink
200 k
SOT23-TO92
F350[145X157]
RC0805
MMBT2222
F1250T
On Semi
Littelfuse
Venkel
RF1,RF2
R1,R3,R17
1/10 W ±1%
1/10 W ±1%
CR0805-10W-
2003FT
24
6
R2,R4,R5,
R102,R104,
R105
100 k
RC0805
CR0805-10W-
1003FT
Venkel
26
Rev. 1.2
Si321xPPQx-EVB
Table 10. Si321xM-FM-DCX Bill of Materials (Continued)
Item Qty
Ref
Value
Rating
Tol Dielectric PCB Footprint
Mfr Part Number
Mfr
25
26
2
2
R6,R7
R8,R9
80.6
1/4 W
±1%
RC1210
RC0805
CR1210-4W-80R6FT
Venkel
Venkel
470
(Si3210M)
1/10 W ±1%
CR0805-10W-
4700FT
4.7 k
(Si3215M)
CR0805-10W-
4701FT
4.7 k
(Si3216M)
CR0805-10W-
4701FT
27
28
29
2
2
1
R10,R11
R12,R13
R14
10
5.1 k
40.2 k
1/10 W ±5%
1/10 W ±5%
1/10 W ±1%
RC0805
RC0805
RC0805
CR0805-10W-100JT
CR0805-10W-512JT
Venkel
Venkel
Venkel
CR0805-10W-
4022FT
30
1
R15
243
1/10 W ±1%
RC0805
CR0805-10W-
2430FT
Venkel
31
32
1
2
R18
0.1
1/4 W
±1%
CC1206
RC0805
CR1206-4W-R100FT
Venkel
Venkel
R19,R20
16.5 k
1/10 W ±1%
CR0805-10W-
1652FT
33
1
R21
15
1/10 W ±1%
RC0805
CR0805-10W-
15R0FT
Venkel
34
35
36
37
1
2
2
1
R22
R23,R24
R25,R26
R28
22
3.0 k
47 k
1/10 W ±5%
1/10 W ±5%
1/10 W ±5%
1/10 W ±1%
RC0805
RC0805
RC0805
RC0805
CR0805-10W-220JT
CR0805-10W-302JT
CR0805-10W-473JT
Venkel
Venkel
Venkel
Venkel
26.1 k
CR0805-10W-
2612FT
38
39
1
5
R29
665 k
0
1/10 W ±1%
1/16 W ±1%
RC0805
RC0805
CR0805-10W-
6653FT
Venkel
Venkel
R32,R43,
R45,R46,
R47
CR0805-16W-
0000FT
40
41
42
43
1
3
1
1
R36
37.4 k
Test Point
Transformer
1/10 W ±1%
RC0805
CR0805-10W-
3742FT
Venkel
Mouser
Midcom
TIP, RING,
GND
151-205
T1
XFMR-CTX01-
15275
31353R-02
U1
Si3210M-FM
Si3215M-FM
Si3216M-FM
MLF38N5X7-0.5P Si3210M-FM Rev E
MLF38N5X7-0.5P Si3215M-FM Rev C
MLF38N5X7-0.5P Si3216M-FM Rev C
SiLabs
SiLabs
SiLabs
Not Installed Components
44
45
1
5
D5
NI
NI
95 V
DO-214AA-3
RC0805
P1101CA2
Teccor
R33,R34,
R42,R44,
R48
Rev. 1.2
27
Si321xPPQx-EVB
Figure 22. Si321xM-FM-DCX-EVB with Discretes Primary Assembly
Figure 23. Si321xM-FM-DCX-EVB with Discretes Primary Side
Figure 24. Si321xM-FM-DCI-EVB with Discretes Secondary Side
28
Rev. 1.2
Si321xPPQx-EVB
2
4
1
3
2
4
1
3
1
3
5
7
9
2
9
7
5
3
1
1 0
8
2
1
9
7
5
3
1
1 0
8
4
3
6
4
6
6
5
6
8
4
2
8
7
4
2
0
1
1 0
9
G r o w u o n e d P r ,
Rev. 1.2
29
Si321xPPQx-EVB
5
6
7
8
4
3
2
1
5
6
7
8
4
3
2
1
5
6
7
8
4
3
2
1
u r n
u r n
u r n
i o n e R c o e t r t t P
i o n e R c o e t r t t P
i o n e R c o e t r t t P
3
2
1
u r n
o u r c e R R e N t G S
3
N C
2
1
O U R C R E V N G S
5
6
7
8
4
3
2
1
5
6
7
8
4
3
2
1
+ V i n
3
+ 5 V 2
1
+ 3 V
m o m C o n
m o m C o n
m o m C o n
3
2
1
y r t t e B w a o L
r y e t t a
r y e t t a
3
H i g h 2 B
1
R i n g i n g B
30
Rev. 1.2
Si321xPPQx-EVB
D E S T / R L
N Y C L F E S
5
6
7
8
4
3
2
1
D
D
L E L K C P
D E I L S D
F S
P C L K
D
L E L K C S
D E S L / C
5
6
7
8
4
3
2
1
D E L O S D
D E T L / I N
5
6
7
8
4
3
2
1
G N D
G N D
2 3
1
C
C
V C
V C
3 4
1 2
1
2
8
8
1 5
7
1 5
7
1 4
6
1 4
6
1 3
5
1 3
5
1 2
4
1 2
4
1 1
3
1 1
3
1 0
2
1 0
2
9
9
1
1
Rev. 1.2
31
Si321xPPQx-EVB
7. ProSLIC Motherboard Bill of Materials
Table 11. ProSLIC Motherboard Bill of Materials
Item NI Qty
Ref
Value
Rating
Tol Dielectric
PCB
Mfr Part Number
Mfr
Footprint
1
2
1
C1
100 pF
0.1 µF
16 V
±20%
X7R
X7R
0402
0603
Venkel
Venkel
13
C2,C3,C4,
C5,C6,C7,
C8,C9,C10,
C11,C12,
6 Vmin ±20%
C15,C16
3
4
5
6
7
2
1
2
2
4
C13,C14
C17
100 µF
0.01 µF
Zener
10 Vmin
Elect
X7R
.100in
0603
6 Vmin ±20%
6.8 V
0603YC103MATA
P6KE6.8A
AVX
Vishay
Lumex
3M
D1,D2
D3,D4
DO15
LED 4pack
SSF-LXH400ID
2303-6111TN
JP1,JP2,JP HEADER
3, JP4
3x1 100 mil
5x2 100 mil
3X1
8
4
JS1,JS3,
JS4,JS5
SSW-105-01-T-D
Samtec
9
1
1
JS2
J1
2x2 100 mil
SSW-102-01-T-D
2326-6121TN
Samtec
3M
10
HEADER
13X2
13x2 100 mil
11
12
5
1
J2,J3,J4,
J5,J6
CON3
2SV-03
Thomas &
Betts
J7
HEADER
8X1
8x1 100 mil
2308-6111TN
3M
13
14
15
16
17
18
19
20
21
2
1
3
3
1
2
1
1
4
L1,L2
P1
EMI Filt
DB25F
Pana EXC
DB25 Female
R-Pack
EXC-EMT103DT
747846-3
Panasonic
Amp
R1,R2,R3
R4,R5,R10
R6
220 k
EXB-38V224JV
EXB-38V103JV
CR0805-10W-4700FT
EXB-38V331JV
101-0161
Panasonic
Panasonic
Venkel
10 k
R-Pack
470
1/10 W ±1%
0805
R8,R9
S1
330
R-Pack
Panasonic
Mouser
C&K
Push Button
DIP Switch
4245A
DIP-6
S2
DIP-16
SDA08H0KD
U1,U2,
U3,U4
TSSOP-24
SN74LVC4245A
TI
22
1
U5
32.768 MHz
SMD and
thru-hole
SG-531PH
Epson
32
Rev. 1.2
Si321xPPQx-EVB
Table 11. ProSLIC Motherboard Bill of Materials (Continued)
Item NI Qty
Ref
Value
Rating
Tol Dielectric
PCB
Mfr Part Number
Mfr
Footprint
23
2 4
1
4
U6
FPGA
PLCC-44
ISPLSI1016
Lattice
J P 1 - + 5 V,
J P 2 - + 5 V,
J P 3 - N T,
Jumpers
Standard Two Pin,
0.100" Jumpers
JP4-INT
25
26
6
6
NA
NA
Screws
#4 Plastic Standoff
Screws
Standoffs
#4 x 1/2 inch Plastic
Standoffs
Not Installed Components
27
28
29
30
NI
NI
NI
NI
1
1
2
4
P2
P3
DB15 Female
DB15 Male
747845-4
747841-4
Amp
Amp
JP5,JP6
J8,J9,
J10,J11
BNC
73133
Molex
3M
31
32
33
NI
NI
NI
1
2
2
J13
2x1 100 mil
805
2302-6111TN
R11,R7
TP D5,
TP D6
thru-hole
Rev. 1.2
33
Si321xPPQx-EVB
8. ProSLIC Motherboard Layouts
34
Rev. 1.2
Si321xPPQx-EVB
Rev. 1.2
35
Si321xPPQx-EVB
36
Rev. 1.2
Si321xPPQx-EVB
9. Ordering Guide
EVB
ProSLIC Device
DC/DC Option
Linefeed Option
Si3210PPQX-EVB
Si3210PPQ1-EVB
Si3210MPPQX-EVB
Si3210MPPQ1-EVB
Si3215PPQX-EVB
Si3215PPQ1-EVB
Si3215MPPQX-EVB
Si3215MPPQ1-EVB
Si3216PPQX-EVB
Si3216PPQ1-EVB
Si3216MPPQX-EVB
Si3216MPPQ1-EVB
Si3210
Si3210
BJT/Inductor
BJT/Inductor
Discrete
Si3201
Discrete
Si3201
Discrete
Si3201
Discrete
Si3201
Discrete
Si3201
Discrete
Si3201
Si3210M
Si3210M
Si3215
FET/Transformer
FET/Transformer
BJT/Inductor
Si3215
BJT/Inductor
Si3215M
Si3215M
Si3216
FET/Transformer
FET/Transformer
BJT/Inductor
Si3216
BJT/Inductor
Si3216M
Si3216M
FET/Transformer
FET/Transformer
Rev. 1.2
37
Si321xPPQx-EVB
DOCUMENT CHANGE LIST
Revision 0.9 to Revision 1.0
Updated schematics
Updated layouts
Revision 1.0 to Revision 1.1
Added QFN schematics and layouts.
Revision 1.1 to Revision 1.2
Updated to reflect currently-available EVB designs.
38
Rev. 1.2
Si321xPPQx-EVB
NOTES:
Rev. 1.2
39
Si321xPPQx-EVB
CONTACT INFORMATION
Silicon Laboratories Inc.
400 West Cesar Chavez
Austin, TX 78701
Tel: 1+(512) 416-8500
Fax: 1+(512) 416-9669
Toll Free: 1+(877) 444-3032
Email: ProSLICinfo@silabs.com
Internet: www.silabs.com
The information in this document is believed to be accurate in all respects at the time of publication but is subject to change without notice.
Silicon Laboratories assumes no responsibility for errors and omissions, and disclaims responsibility for any consequences resulting from
the use of information included herein. Additionally, Silicon Laboratories assumes no responsibility for the functioning of undescribed features
or parameters. Silicon Laboratories reserves the right to make changes without further notice. Silicon Laboratories makes no warranty, rep-
resentation or guarantee regarding the suitability of its products for any particular purpose, nor does Silicon Laboratories assume any liability
arising out of the application or use of any product or circuit, and specifically disclaims any and all liability, including without limitation conse-
quential or incidental damages. Silicon Laboratories products are not designed, intended, or authorized for use in applications intended to
support or sustain life, or for any other application in which the failure of the Silicon Laboratories product could create a situation where per-
sonal injury or death may occur. Should Buyer purchase or use Silicon Laboratories products for any such unintended or unauthorized ap-
plication, Buyer shall indemnify and hold Silicon Laboratories harmless against all claims and damages.
Silicon Laboratories, Silicon Labs, ProSLIC, and LINC are trademarks of Silicon Laboratories Inc.
Other products or brandnames mentioned herein are trademarks or registered trademarks of their respective holders.
40
Rev. 1.2
Mouser Electronics
Authorized Distributor
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