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Texas Instruments SN65DPHY440SS EVM Users User guides
User's Guide
SLLU230 – January 2016
DPHY440SSRHREVM Users Guide v0.2
This document describes how to use DPHY440SSRHREVM.
1
What is DPHY440SSRHREVM?
The DPHY440SSRHREVM is designed to evaluate SN65DPHY440SSRHR device. The EVM has two
SAMTEC connectors which provide a means to route DSI or CSI-2 data and clock into and out of the
DPHY440.
Figure 1. DPHY440SSRHR EVM
2
DPHY440SSRHR EVM Features
2.1
Power
The EVM can be powered 5 V – 12 V DC IN through a power jack J8 (2 mm positive tip, 6.5 mm negative
outer shield).
Test loops and headers to power rails and GND are provided for test purposes. Some power rails can be
isolated from main power supply by removing passive components. Refer to the schematics for power rail
connection details. Do not supply external power through the test headers/loops unless the power rail has
been isolated from other power sources.
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DPHY440SSRHR EVM Features
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Configuration Setting
The EVM has four headers which can be used to control DPHY440 settings like receiver equalization,
transmitter voltage swing and pre-emphasis level. Refer to SN65DPHY440SS datasheet for details on
configuration options and settings.
Table 1. Configuration Options
Reference
Designator
Control Function
Default Setting
Description
J3
ERC/SDA
OPEN
Short J3.1 to J3.2: VIH
J3 open: VIM
Short J3.2 to J3.3: VIL
J4
VSADJ_CFG0
OPEN
Short J4.1 to J4.2: VIH
J4 open: VIM
Short J4.2 to J4.3: VIL
J5
EQ/SDA
OPEN
Short J5.1 to J5.2: VIH
J5 open: VIM
Short J5.2 to J5.3: VIL
J6
PRE_CFG1
OPEN
Short J6.1 to J6.2: VIH
J6 open: VIM
Short J6.2 to J6.3:
SW1
RSTN
OPEN
Push to reset the DPHY440.
NOTE: SN65DPHY440SS RSTN must be toggled from low to high (via SW1) each time a header
configuration is changed
2.3
I2C
If the configuration options listed in Table 1 are not good enough, the SN65DPHY440 has a I2C slave
interface which provides software access to additional configuration options. This I2C slave interface is
available after DPHY440 has sampled all the 3-level inputs. The SN65DPHY440SSRNR 7-bit I2C address
is 0x6C.
I2C bus can be accessed through headers: J3.2 (SDA) and J5.2 (SCL). External 4.7K pull-ups to 1.8 V on
both of these pins should be employed when accessing DPHY440 I2C from these two pins.
A separate I2C header (J7) which matches the Total Phase Aardvark I2C controller dongle is also available
on EVM. In order to use header J7, R14 and R15 must be populated with a 0-Ω resistor. Once these
resistors are populated, the Total Phase Aardvark I2C controller dongle can be connected to J7. A user will
need to install the J7 header on the EVM board.
Table 2. J7 Pin-Out
J7 Pin No.
2
Name
J7 Pin No.
Name
1
SCL at 3.3V levels
2
GND
3
SDA at 3.3V levels
4
NC
5
NC
6
NC
7
NC
8
NC
9
NC
10
GND
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2.4
J1 – DSI/CSI-2 Input Connector (P/N QSH-020-01-H-D-DP-A)
Provided on the DPHY440 is a Samtec QSH type connector that can be mated with a matching QTH
connector. This Samtec connector provides a means to route DSI or CSI-2 signals into the
SN65DPHY440SSRHR. The mating connector part number is QTH-020-01-H-D-DP-A. There are third
party solutions like the HDR-128291-XX breakout board from Samtec which can be used. The HDR128291-XX is a breakout board with a mating connector to J1 and standard SMA male connectors. More
info on this breakout board can be obtained from Samtec website. Another third party option is the ZX100
by Zebax Technologies. More information on this board can be obtained from Zebax website.
Table 3. J1 Pin-Out
Pin No.
Name
Pin No.
Name
1
DA3N
2
EQ/SCL
3
DA3P
4
ERC/SDA
5
GND
6
NC
7
GND
8
NC
NC
9
DA2N
10
11
DA2P
12
NC
13
GND
14
Board RSTN
15
GND
16
NC
17
DACN
18
NC
19
DACP
20
NC
21
GND
22
NC
23
GND
24
NC
25
DA1N
26
NC
27
DA1P
28
NC
29
GND
30
NC
31
GND
32
NC
33
DA0N
34
Board 1.8V
35
DA0P
36
Board 1.8V
37
NC
38
Board 1.2V
39
NC
40
Board 1.2V
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J2 – DSI/CSI-2 Output Connector (P/N QSH-020-01-H-D-DP-A)
Provided on the DPHY440 is a Samtec QSH type connector that can be mated with a matching QTH
connector. This Samtec connector provides a means to route DSI or CSI-2 signals out of the
SN65DPHY440SSRHR. The mating connector part number is QTH-020-01-H-D-DP-A. There are third
party solutions like the HDR-128291-XX breakout board from Samtec which can be used. The HDR128291-XX is a breakout board with a mating connector to J1 and standard SMA male connectors. More
info on this breakout board can be obtained from Samtec website. Another third party option is the ZX100
by Zebax Technologies. More information on this board can be obtained from Zebax website.
Table 4. J2 Pin-Out
Pin No.
2.6
Name
Pin No.
Name
1
DB0P
2
EQ/SCL
3
DB0N
4
ERC/SDA
5
GND
6
NC
7
GND
8
NC
NC
9
DB1P
10
11
DB1N
12
NC
13
GND
14
Board RSTN
15
GND
16
NC
17
DBCP
18
NC
19
DBCN
20
NC
21
GND
22
NC
23
GND
24
NC
25
DB2P
26
NC
27
DB2N
28
NC
29
GND
30
NC
31
GND
32
NC
33
DB3P
34
NC
35
DB3N
36
NC
37
NC
38
NC
39
NC
40
NC
LEDs
Table 5. LEDs
4
Reference Designator
LED Name
Description
D2
POWER
Illuminates if 5V - 12 Power is applied to DC-IN J8.
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I2C Configuration Examples
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3
I2C Configuration Examples
This section provides configuration example of the DPHY440SSRHREVM using the Total Phase Aardvark
I2C controller dongle.
<aardvark>
<configure i2c="1" spi="1" gpio="0" tpower="1" pullups="0"/>
<i2c_bitrate khz="100"/>
======RxEQ======<
<i2c_write addr="0x6C" count="1" radix="16">09 00</i2c_write>/>
======ERC======
i2c_write addr="0x6C" count="1" radix="16">0A FF</i2c_write>/>
i2c_write addr="0x6C" count="1" radix="16">0B FF</i2c_write>/>
======VSADJ and PRE======
<i2c_write addr="0x6C" count="1" radix="16">0E 11</i2c_write>/ >
</aardvark>
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Bill of Materials
4
6
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Bill of Materials
Item
Quantity
Reference
Part
Tolerance
Footprint
Manuf
Manuf PN
1
5
C1,C3,C4,C7,C8
0.1uF
10V, 10%
cc0402
Yageo
CC0402KRX5R6BB104
2
2
C2,C5
0.001uF
16V, 10%
cc0402
Kemet
C0402C102K4RACTU
3
1
C6
0.22uF
10V, 10%
cc0402
Taiyo Yuden
LMK105BJ224KV-F
4
4
C9,C10,C15,C17
10uF
6.3V, 10%
cc0805
Taiyo Yuden
JMK212B7106KG-T
5
2
C11,C18
0.01uF
25V, 10%
cc0402
Murata
GRM155R71E103KA01D
6
0
C12,C19
DNI_100nF
10V, 10%
cc0402
Yageo
CC0402KRX5R6BB104
7
1
C13
22uF
25V, 10%
cc1206
Murata
GRM31CR61E226KE15L
8
1
C14
10uF
25V, 10%
cc0805
Murata
GRM21BR61E106KA73L
10V, 20%
C2012X5R1A226M125AB
9
1
C16
22uF
cc0805
TDK
10
1
D1
40V, 1A
DO214AC
Comchip
CDBA140SL-HF
11
1
D2
LED Green 0805
r0805
Arrow (Lumex)
670-1006 (SML_LX0805GC)
12
0
JMP1,JMP2,JMP3,JMP4
DNI_2 Pin Berg Jumper
berg2
Sullins
PEC02SAAN
13
2
J1,J2
QSH-020-01
QSH-020_x
Samtec
QSH-020-01-X-D-DP-A
14
4
J3,J4,J5,J6
HDR3X1 M .1
HDR_THVT_1x3_100
3M
961103-6404-AR
15
0
J7
Header 5x2 0.1" thru-hole
con_thvt_shrd_2x5_100_m
3M
N2510-6002-RB
16
1
J8
2.1mm x 5.5mm
PJ-202AH
CUI STACK
PJ-202AH
17
0
LP1,LP2,LP3,LP4,LP5,LP6,
LP7,LP8,LP9
LP
TESTLOOP
KOBIKONN
151-103-RC
18
1
L1
2.2uH
4p5x4mm
Vishay
IHLP1616ABER2R2M11
19
4
R1,R20,R26,R30
0
5%
r0402
Rohm
MCR01MRTJ000
20
0
R2,R3,R4,R14,R15,R19,R2
3,R33,R34
DNI_0
5%
r0402
Rohm
MCR01MRTJ000
21
6
R5,R9,R17,R18,R22,R29
4.7K
5%
r0402
Panasonic
ERJ-2GEJ472X
22
8
R6,R7,R8,R10,R11,R12,R1
6,R27
10K
5%
r0402
Panasonic
ERJ-2GEJ103X
23
0
R13
DNI_10K
5%
r0402
Panasonic
ERJ-2GEJ103X
24
1
R21
499
5%
r0402
Panasonic
ERJ-2RKF4990X
25
1
R24
2.49K
1%
r0402
Panasonic
ERJ-2RKF2491X
26
1
R25
4.99K
1%
r0402
Panasonic
ERJ-2RKF4991X
27
1
R28
100K
5%
r0402
Panasonic
ERJ-2GEJ104X
28
1
R31
3.57K
1%
r0402
Panasonic
ERJ-2RKF3571X
29
1
R32
2.87K
1%
r0402
Panasonic
ERJ-2RKF2871X
30
1
SW1
PB_SWITCH
SW_MOM_2NO
OMRON
B3SN-3012P
31
1
SW2
TS01CQE
TS01CQE
C7K Div.
TS01CQE
32
1
U1
SN65DPHY440SSRHRR
28_RHR
Texas Instruments
SN65DPHY440SSRHRR
33
1
U2
txs0102dcut
DCU8
Texas Instruments
TXS0102DCUT
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Schematics
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(continued)
Item
Quantity
Reference
Part
Footprint
Manuf
Manuf PN
34
2
U3, U4
TPS74701
10_DRC
Texas Instruments
TPS74701DRCT
35
1
U5
TPS62162
8_DSG
Texas Instruments
TPS62162DSG
LBL1
"Thermal Transfer Printable
Labels, 0.650"" W x 0.200""
H - 10,000 per roll"
'PCB Label 0.650"H x
0.200"W
Brady
THT-14-423-10
36
5
1
Tolerance
Schematics
DPHY Output
DPHY Input
DBCP/N
DACP/N
Samtec
(J1)
DAP/N[3:0]
SN65DPHY440SSRHR
(U1)
Page 2
Samtec
(J2)
DBP/N[3:0]
Page 3
Page 3
3.3V
5V 12V
1.2V
1.8V
Page 6
I2C Logic
Page 5
Reset
Logic
Page 5
Figure 2. DPHY440SSRHREVM Page 1
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Schematics
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LP1
PG4
PRE_CFG1
PG4
VSADJ_CFG0
DB2P
DB2N
DA3P
DA3N
C2
0.1uF
0.001uF
25
VDD
26
DA2P
DA2N
SN65DPHY440SSRHR
LP2
27
DBCP
DBCN
ERC/SDA
9
10
C1
DB3P
DB3N
24
23
22
21
20
19
18
17
16
15
DB0P
DB0N
PG3
PG3
DB1P
DB1N
PG3
PG3
DBCP
DBCN
PG3
PG3
DB2P
DB2N
PG3
PG3
DB3P
DB3N
PG3
PG3
14
DA3P
DA3N
PRE_CFG1
PG3
PG3
7
8
DB1P
DB1N
EQ/SCL
DA2P
DA2N
DB0P
DB0N
DACP
DACN
13
PG3
PG3
5
6
VSADJ_CFG0
DACP
DACN
DA1P
DA1N
VREG_OUT
PG3
PG3
3
4
12
DA1P
DA1N
DA0P
DA0N
RSTN
PG3
PG3
1
2
VCC
DA0P
DA0N
11
PG3
PG3
TP
U1
28
BOARD_RESETN
29
PG3,5,6
VDD
VCC
VREGOUT
C3
C4
0.1uF
0.1uF
R1
0
ERC_SDA
EQ_SCL
PG3,4,5
PG3,4,5
LP3
I2C Slave Addr = 0x6C (1101100)
C5
0.001uF
Figure 3. DPHY440SSRHREVM Page 2
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Schematics
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BOARD_1P8V
BOARD_1P2V
R34
R33
DNI_0
J1
DNI_0 J1_1PT2V
J1_1PT8V
CSI_1
CSI_2
QSH-020-01
40
38
36
34
32
30
28
26
24
22
20
18
16
14
12
10
8
6
4
2
39
37
35
33
31
29
27
25
23
21
19
17
15
13
11
9
7
5
3
1
DA0P
DA0N
PG2
PG2
DA1P
DA1N
PG2
PG2
DACP
DACN
PG2
PG2
DA2P
DA2N
PG2
PG2
DA3P
DA3N
PG2
PG2
DPHY_INPUT
SHTDWNZ
R2
R3
R4
G3
G4
G1
G2
TOP
DNI_0
DNI_0
DNI_0
J2
ERC_SDA
PG2,4,5
EQ_SCL
PG2,4,5
BOARD_RESETN
PG2,5,6
QSH-020-01
40
38
36
34
32
30
28
26
24
22
20
18
16
14
12
10
8
6
4
2
39
37
35
33
31
29
27
25
23
21
19
17
15
13
11
9
7
5
3
1
DB3N
DB3P
PG2
PG2
DB2N
DB2P
PG2
PG2
DBCN
DBCP
PG2
PG2
DB1N
DB1P
PG2
PG2
DB0N
DB0P
PG2
PG2
DPHY_OUTPUT
G3
G4
G1
G2
TOP
Figure 4. DPHY440SSRHREVM Page 3
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Schematics
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VCC
VCC
R5
4.7K
r0402
5%
J3
1
2
3
PU
ERC_SDA
PD
ERC_HI
J4
ERC_SDA
ERC_LO
HDR3X1 M .1
R6
10K
r0402
5%
PG2,3,5
1
2
3
PU
VSADJ
PD
VSADJ_HI
VSADJ_CFG0
VSADJ_LO
HDR3X1 M .1
R7
10K
r0402
5%
PG2
R8
10K
r0402
5%
VCC
VCC
J5
PU
EQ_SCL
PD
1
2
3
EQ_HI
R9
4.7K
r0402
5%
EQ_SCL
EQ_LO
HDR3X1 M .1
J6
PG2,3,5
PU
PRE
PD
1
2
3
PRE_HI
PRE_CFG1
PRE_LO
HDR3X1 M .1
R11
10K
r0402
5%
R10
10K
r0402
5%
PG2
R12
10K
r0402
5%
Figure 5. DPHY440SSRHREVM Page 4
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Schematics
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RESET
VCC
R13
DNI_10K
r0402
5%
SW1
PB_SWITCH
1
2
4
3
BOARD_RESETN
N.O.
SilkScreen:
C6
JMP1
1
2
0.22uF
RESET
PG2,3,6
DNI_2 Pin Berg Jumper
I2C
BOARD_1P8V
BOARD_3P3V
Note:
Place caps
near the
part.
Note:
Place caps
near the
part.
C7
0.1uF
C8
0.1uF
Note:Populate R14
and R15 with 0-ohm
resistor to use
I2C interface.
U2
7
I2C_SDA_3P3V
I2C_SCL_3P3V
8
1
2
VCCB
VCCA
B1
B2
A1
A2
GND
OE
3
5
4
A1_SDA
A1_SCL
6
I2C_3V3EN
BOARD_3P3V
R18
4.7K
r0402
5%
DNI_0
DNI_0
ERC_SDA
EQ_SCL
PG2,3,4
PG2,3,4
R16
10K
r0402
5%
txs0102dcut
R17
4.7K
r0402
5%
R14
R15
SilkScreen:
J7
1
3
5
7
9
I2C
2
4
6
8
10
R19
DNI_0
r0402
5%
Header 5x2 0.1" thru-hole
Figure 6. DPHY440SSRHREVM Page 5
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Schematics
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SilkScreen:
ON
OFF
1.2V REGULATOR
BOARD_9V
SW2
TS01CQE
BOARD_1P2V
BOARD_3P3V
VDD
1
2
3
U3
J8
R21
499
r0402
5%
D1
9V_DIODE
2
1 PWRIN_SW
S
T
20V, 1A
2.1mm x 5.5mm
R22
4.7K
r0402
5% EN1P2
SilkScreen:
EN
7
OUT1
OUT2
3
PG1P2
R20
GND
TPAD
SS1P2
FB
0
PG
BOARD_RESETN
10
9
8
FB_1PT2V
PG2,3,5
R23
JMP2
SS
6
11
0.01uF
D2
LED Green 0805
9V
PG
BIAS
5
C11
5V to 12V
Positive Tip
Shield GND
IN1
IN2
4
C9
10uF
LED9V
2
3
1
1
2
DNI_0
1
2
R24
2.49K
r0402
1%
C10
10uF
DNI_2 Pin Berg Jumper
POPULATE R23 or short
JMP2 FOR DPHY440DS
TPS74701
R25
4.99K
r0402
1%
C12
DNI_100nF
1.8V REGULATOR
BOARD_1P8V
BOARD_9V
BOARD_3P3V
3.3V REGULATOR
BOARD_3P3V
LP4
VCC
U4
L1
1
2
U5
2
3
C13
22uF
C14
10uF
R27
10K
r0402
1
4
9
VIN
EN
SW
VOS
PGND
AGND
TPAD
PG
FB
7
6
SWOUT
8
5
PG3P3
4
C15
10uF
2.2uH
R28
100K
r0402
5%
R29
4.7K
r0402
5%EN1P8
C16
22uF
0.01uF
SS1P8
JMP4
C19
1
2
7
6
11
C18
TPS62162
5
DNI_100nF
IN1
IN2
PG
BIAS
EN
OUT1
OUT2
3
PG1P8
R26
10
9
R30
SS
GND
TPAD
FB
0
8
FB_1PT8V
R31
3.57K
r0402
1%
0
JMP3
C17
10uF
1
2
DNI_2 Pin Berg Jumper
TPS74701
R32
2.87K
r0402
1%
DNI_2 Pin Berg Jumper
SilkScreen:
GND SilkScreen:
LP5
GND
LP6
LP7
LP8
LP9
Figure 7. DPHY440SSRHREVM Page 6
12
DPHY440SSRHREVM Users Guide v0.2
SLLU230 – January 2016
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Copyright © 2016, Texas Instruments Incorporated
STANDARD TERMS AND CONDITIONS FOR EVALUATION MODULES
1.
Delivery: TI delivers TI evaluation boards, kits, or modules, including any accompanying demonstration software, components, or
documentation (collectively, an “EVM” or “EVMs”) to the User (“User”) in accordance with the terms and conditions set forth herein.
Acceptance of the EVM is expressly subject to the following terms and conditions.
1.1 EVMs are intended solely for product or software developers for use in a research and development setting to facilitate feasibility
evaluation, experimentation, or scientific analysis of TI semiconductors products. EVMs have no direct function and are not
finished products. EVMs shall not be directly or indirectly assembled as a part or subassembly in any finished product. For
clarification, any software or software tools provided with the EVM (“Software”) shall not be subject to the terms and conditions
set forth herein but rather shall be subject to the applicable terms and conditions that accompany such Software
1.2 EVMs are not intended for consumer or household use. EVMs may not be sold, sublicensed, leased, rented, loaned, assigned,
or otherwise distributed for commercial purposes by Users, in whole or in part, or used in any finished product or production
system.
2
Limited Warranty and Related Remedies/Disclaimers:
2.1 These terms and conditions do not apply to Software. The warranty, if any, for Software is covered in the applicable Software
License Agreement.
2.2 TI warrants that the TI EVM will conform to TI's published specifications for ninety (90) days after the date TI delivers such EVM
to User. Notwithstanding the foregoing, TI shall not be liable for any defects that are caused by neglect, misuse or mistreatment
by an entity other than TI, including improper installation or testing, or for any EVMs that have been altered or modified in any
way by an entity other than TI. Moreover, TI shall not be liable for any defects that result from User's design, specifications or
instructions for such EVMs. Testing and other quality control techniques are used to the extent TI deems necessary or as
mandated by government requirements. TI does not test all parameters of each EVM.
2.3 If any EVM fails to conform to the warranty set forth above, TI's sole liability shall be at its option to repair or replace such EVM,
or credit User's account for such EVM. TI's liability under this warranty shall be limited to EVMs that are returned during the
warranty period to the address designated by TI and that are determined by TI not to conform to such warranty. If TI elects to
repair or replace such EVM, TI shall have a reasonable time to repair such EVM or provide replacements. Repaired EVMs shall
be warranted for the remainder of the original warranty period. Replaced EVMs shall be warranted for a new full ninety (90) day
warranty period.
3
Regulatory Notices:
3.1 United States
3.1.1
Notice applicable to EVMs not FCC-Approved:
This kit is designed to allow product developers to evaluate electronic components, circuitry, or software associated with the kit
to determine whether to incorporate such items in a finished product and software developers to write software applications for
use with the end product. This kit is not a finished product and when assembled may not be resold or otherwise marketed unless
all required FCC equipment authorizations are first obtained. Operation is subject to the condition that this product not cause
harmful interference to licensed radio stations and that this product accept harmful interference. Unless the assembled kit is
designed to operate under part 15, part 18 or part 95 of this chapter, the operator of the kit must operate under the authority of
an FCC license holder or must secure an experimental authorization under part 5 of this chapter.
3.1.2
For EVMs annotated as FCC – FEDERAL COMMUNICATIONS COMMISSION Part 15 Compliant:
CAUTION
This device complies with part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) This device may not
cause harmful interference, and (2) this device must accept any interference received, including interference that may cause
undesired operation.
Changes or modifications not expressly approved by the party responsible for compliance could void the user's authority to
operate the equipment.
FCC Interference Statement for Class A EVM devices
NOTE: This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to part 15 of
the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is
operated in a commercial environment. This equipment generates, uses, and can radiate radio frequency energy and, if not
installed and used in accordance with the instruction manual, may cause harmful interference to radio communications.
Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to
correct the interference at his own expense.
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FCC Interference Statement for Class B EVM devices
NOTE: This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to part 15 of
the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential
installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance
with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference
will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which
can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more
of the following measures:
•
•
•
•
Reorient or relocate the receiving antenna.
Increase the separation between the equipment and receiver.
Connect the equipment into an outlet on a circuit different from that to which the receiver is connected.
Consult the dealer or an experienced radio/TV technician for help.
3.2 Canada
3.2.1
For EVMs issued with an Industry Canada Certificate of Conformance to RSS-210
Concerning EVMs Including Radio Transmitters:
This device complies with Industry Canada license-exempt RSS standard(s). Operation is subject to the following two conditions:
(1) this device may not cause interference, and (2) this device must accept any interference, including interference that may
cause undesired operation of the device.
Concernant les EVMs avec appareils radio:
Le présent appareil est conforme aux CNR d'Industrie Canada applicables aux appareils radio exempts de licence. L'exploitation
est autorisée aux deux conditions suivantes: (1) l'appareil ne doit pas produire de brouillage, et (2) l'utilisateur de l'appareil doit
accepter tout brouillage radioélectrique subi, même si le brouillage est susceptible d'en compromettre le fonctionnement.
Concerning EVMs Including Detachable Antennas:
Under Industry Canada regulations, this radio transmitter may only operate using an antenna of a type and maximum (or lesser)
gain approved for the transmitter by Industry Canada. To reduce potential radio interference to other users, the antenna type
and its gain should be so chosen that the equivalent isotropically radiated power (e.i.r.p.) is not more than that necessary for
successful communication. This radio transmitter has been approved by Industry Canada to operate with the antenna types
listed in the user guide with the maximum permissible gain and required antenna impedance for each antenna type indicated.
Antenna types not included in this list, having a gain greater than the maximum gain indicated for that type, are strictly prohibited
for use with this device.
Concernant les EVMs avec antennes détachables
Conformément à la réglementation d'Industrie Canada, le présent émetteur radio peut fonctionner avec une antenne d'un type et
d'un gain maximal (ou inférieur) approuvé pour l'émetteur par Industrie Canada. Dans le but de réduire les risques de brouillage
radioélectrique à l'intention des autres utilisateurs, il faut choisir le type d'antenne et son gain de sorte que la puissance isotrope
rayonnée équivalente (p.i.r.e.) ne dépasse pas l'intensité nécessaire à l'établissement d'une communication satisfaisante. Le
présent émetteur radio a été approuvé par Industrie Canada pour fonctionner avec les types d'antenne énumérés dans le
manuel d’usage et ayant un gain admissible maximal et l'impédance requise pour chaque type d'antenne. Les types d'antenne
non inclus dans cette liste, ou dont le gain est supérieur au gain maximal indiqué, sont strictement interdits pour l'exploitation de
l'émetteur
3.3 Japan
3.3.1
Notice for EVMs delivered in Japan: Please see http://www.tij.co.jp/lsds/ti_ja/general/eStore/notice_01.page 日本国内に
輸入される評価用キット、ボードについては、次のところをご覧ください。
http://www.tij.co.jp/lsds/ti_ja/general/eStore/notice_01.page
3.3.2
Notice for Users of EVMs Considered “Radio Frequency Products” in Japan: EVMs entering Japan may not be certified
by TI as conforming to Technical Regulations of Radio Law of Japan.
If User uses EVMs in Japan, not certified to Technical Regulations of Radio Law of Japan, User is required by Radio Law of
Japan to follow the instructions below with respect to EVMs:
1.
2.
3.
Use EVMs in a shielded room or any other test facility as defined in the notification #173 issued by Ministry of Internal
Affairs and Communications on March 28, 2006, based on Sub-section 1.1 of Article 6 of the Ministry’s Rule for
Enforcement of Radio Law of Japan,
Use EVMs only after User obtains the license of Test Radio Station as provided in Radio Law of Japan with respect to
EVMs, or
Use of EVMs only after User obtains the Technical Regulations Conformity Certification as provided in Radio Law of Japan
with respect to EVMs. Also, do not transfer EVMs, unless User gives the same notice above to the transferee. Please note
that if User does not follow the instructions above, User will be subject to penalties of Radio Law of Japan.
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【無線電波を送信する製品の開発キットをお使いになる際の注意事項】 開発キットの中には技術基準適合証明を受けて
いないものがあります。 技術適合証明を受けていないもののご使用に際しては、電波法遵守のため、以下のいずれかの
措置を取っていただく必要がありますのでご注意ください。
1.
2.
3.
電波法施行規則第6条第1項第1号に基づく平成18年3月28日総務省告示第173号で定められた電波暗室等の試験設備でご使用
いただく。
実験局の免許を取得後ご使用いただく。
技術基準適合証明を取得後ご使用いただく。
なお、本製品は、上記の「ご使用にあたっての注意」を譲渡先、移転先に通知しない限り、譲渡、移転できないものとします。
上記を遵守頂けない場合は、電波法の罰則が適用される可能性があることをご留意ください。 日本テキサス・イ
ンスツルメンツ株式会社
東京都新宿区西新宿6丁目24番1号
西新宿三井ビル
3.3.3
Notice for EVMs for Power Line Communication: Please see http://www.tij.co.jp/lsds/ti_ja/general/eStore/notice_02.page
電力線搬送波通信についての開発キットをお使いになる際の注意事項については、次のところをご覧くださ
い。http://www.tij.co.jp/lsds/ti_ja/general/eStore/notice_02.page
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4
EVM Use Restrictions and Warnings:
4.1 EVMS ARE NOT FOR USE IN FUNCTIONAL SAFETY AND/OR SAFETY CRITICAL EVALUATIONS, INCLUDING BUT NOT
LIMITED TO EVALUATIONS OF LIFE SUPPORT APPLICATIONS.
4.2 User must read and apply the user guide and other available documentation provided by TI regarding the EVM prior to handling
or using the EVM, including without limitation any warning or restriction notices. The notices contain important safety information
related to, for example, temperatures and voltages.
4.3 Safety-Related Warnings and Restrictions:
4.3.1
User shall operate the EVM within TI’s recommended specifications and environmental considerations stated in the user
guide, other available documentation provided by TI, and any other applicable requirements and employ reasonable and
customary safeguards. Exceeding the specified performance ratings and specifications (including but not limited to input
and output voltage, current, power, and environmental ranges) for the EVM may cause personal injury or death, or
property damage. If there are questions concerning performance ratings and specifications, User should contact a TI
field representative prior to connecting interface electronics including input power and intended loads. Any loads applied
outside of the specified output range may also result in unintended and/or inaccurate operation and/or possible
permanent damage to the EVM and/or interface electronics. Please consult the EVM user guide prior to connecting any
load to the EVM output. If there is uncertainty as to the load specification, please contact a TI field representative.
During normal operation, even with the inputs and outputs kept within the specified allowable ranges, some circuit
components may have elevated case temperatures. These components include but are not limited to linear regulators,
switching transistors, pass transistors, current sense resistors, and heat sinks, which can be identified using the
information in the associated documentation. When working with the EVM, please be aware that the EVM may become
very warm.
4.3.2
EVMs are intended solely for use by technically qualified, professional electronics experts who are familiar with the
dangers and application risks associated with handling electrical mechanical components, systems, and subsystems.
User assumes all responsibility and liability for proper and safe handling and use of the EVM by User or its employees,
affiliates, contractors or designees. User assumes all responsibility and liability to ensure that any interfaces (electronic
and/or mechanical) between the EVM and any human body are designed with suitable isolation and means to safely
limit accessible leakage currents to minimize the risk of electrical shock hazard. User assumes all responsibility and
liability for any improper or unsafe handling or use of the EVM by User or its employees, affiliates, contractors or
designees.
4.4 User assumes all responsibility and liability to determine whether the EVM is subject to any applicable international, federal,
state, or local laws and regulations related to User’s handling and use of the EVM and, if applicable, User assumes all
responsibility and liability for compliance in all respects with such laws and regulations. User assumes all responsibility and
liability for proper disposal and recycling of the EVM consistent with all applicable international, federal, state, and local
requirements.
5.
Accuracy of Information: To the extent TI provides information on the availability and function of EVMs, TI attempts to be as accurate
as possible. However, TI does not warrant the accuracy of EVM descriptions, EVM availability or other information on its websites as
accurate, complete, reliable, current, or error-free.
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6.
Disclaimers:
6.1 EXCEPT AS SET FORTH ABOVE, EVMS AND ANY WRITTEN DESIGN MATERIALS PROVIDED WITH THE EVM (AND THE
DESIGN OF THE EVM ITSELF) ARE PROVIDED "AS IS" AND "WITH ALL FAULTS." TI DISCLAIMS ALL OTHER
WARRANTIES, EXPRESS OR IMPLIED, REGARDING SUCH ITEMS, INCLUDING BUT NOT LIMITED TO ANY IMPLIED
WARRANTIES OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE OR NON-INFRINGEMENT OF ANY
THIRD PARTY PATENTS, COPYRIGHTS, TRADE SECRETS OR OTHER INTELLECTUAL PROPERTY RIGHTS.
6.2 EXCEPT FOR THE LIMITED RIGHT TO USE THE EVM SET FORTH HEREIN, NOTHING IN THESE TERMS AND
CONDITIONS SHALL BE CONSTRUED AS GRANTING OR CONFERRING ANY RIGHTS BY LICENSE, PATENT, OR ANY
OTHER INDUSTRIAL OR INTELLECTUAL PROPERTY RIGHT OF TI, ITS SUPPLIERS/LICENSORS OR ANY OTHER THIRD
PARTY, TO USE THE EVM IN ANY FINISHED END-USER OR READY-TO-USE FINAL PRODUCT, OR FOR ANY
INVENTION, DISCOVERY OR IMPROVEMENT MADE, CONCEIVED OR ACQUIRED PRIOR TO OR AFTER DELIVERY OF
THE EVM.
7.
USER'S INDEMNITY OBLIGATIONS AND REPRESENTATIONS. USER WILL DEFEND, INDEMNIFY AND HOLD TI, ITS
LICENSORS AND THEIR REPRESENTATIVES HARMLESS FROM AND AGAINST ANY AND ALL CLAIMS, DAMAGES, LOSSES,
EXPENSES, COSTS AND LIABILITIES (COLLECTIVELY, "CLAIMS") ARISING OUT OF OR IN CONNECTION WITH ANY
HANDLING OR USE OF THE EVM THAT IS NOT IN ACCORDANCE WITH THESE TERMS AND CONDITIONS. THIS OBLIGATION
SHALL APPLY WHETHER CLAIMS ARISE UNDER STATUTE, REGULATION, OR THE LAW OF TORT, CONTRACT OR ANY
OTHER LEGAL THEORY, AND EVEN IF THE EVM FAILS TO PERFORM AS DESCRIBED OR EXPECTED.
8.
Limitations on Damages and Liability:
8.1 General Limitations. IN NO EVENT SHALL TI BE LIABLE FOR ANY SPECIAL, COLLATERAL, INDIRECT, PUNITIVE,
INCIDENTAL, CONSEQUENTIAL, OR EXEMPLARY DAMAGES IN CONNECTION WITH OR ARISING OUT OF THESE
TERMS ANDCONDITIONS OR THE USE OF THE EVMS PROVIDED HEREUNDER, REGARDLESS OF WHETHER TI HAS
BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES. EXCLUDED DAMAGES INCLUDE, BUT ARE NOT LIMITED
TO, COST OF REMOVAL OR REINSTALLATION, ANCILLARY COSTS TO THE PROCUREMENT OF SUBSTITUTE GOODS
OR SERVICES, RETESTING, OUTSIDE COMPUTER TIME, LABOR COSTS, LOSS OF GOODWILL, LOSS OF PROFITS,
LOSS OF SAVINGS, LOSS OF USE, LOSS OF DATA, OR BUSINESS INTERRUPTION. NO CLAIM, SUIT OR ACTION SHALL
BE BROUGHT AGAINST TI MORE THAN ONE YEAR AFTER THE RELATED CAUSE OF ACTION HAS OCCURRED.
8.2 Specific Limitations. IN NO EVENT SHALL TI'S AGGREGATE LIABILITY FROM ANY WARRANTY OR OTHER OBLIGATION
ARISING OUT OF OR IN CONNECTION WITH THESE TERMS AND CONDITIONS, OR ANY USE OF ANY TI EVM
PROVIDED HEREUNDER, EXCEED THE TOTAL AMOUNT PAID TO TI FOR THE PARTICULAR UNITS SOLD UNDER
THESE TERMS AND CONDITIONS WITH RESPECT TO WHICH LOSSES OR DAMAGES ARE CLAIMED. THE EXISTENCE
OF MORE THAN ONE CLAIM AGAINST THE PARTICULAR UNITS SOLD TO USER UNDER THESE TERMS AND
CONDITIONS SHALL NOT ENLARGE OR EXTEND THIS LIMIT.
9.
Return Policy. Except as otherwise provided, TI does not offer any refunds, returns, or exchanges. Furthermore, no return of EVM(s)
will be accepted if the package has been opened and no return of the EVM(s) will be accepted if they are damaged or otherwise not in
a resalable condition. If User feels it has been incorrectly charged for the EVM(s) it ordered or that delivery violates the applicable
order, User should contact TI. All refunds will be made in full within thirty (30) working days from the return of the components(s),
excluding any postage or packaging costs.
10. Governing Law: These terms and conditions shall be governed by and interpreted in accordance with the laws of the State of Texas,
without reference to conflict-of-laws principles. User agrees that non-exclusive jurisdiction for any dispute arising out of or relating to
these terms and conditions lies within courts located in the State of Texas and consents to venue in Dallas County, Texas.
Notwithstanding the foregoing, any judgment may be enforced in any United States or foreign court, and TI may seek injunctive relief
in any United States or foreign court.
Mailing Address: Texas Instruments, Post Office Box 655303, Dallas, Texas 75265
Copyright © 2015, Texas Instruments Incorporated
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