THEVA231_THEVA236_UsersGuide_Rev.1.10_E
THCV231 / THCV236 Evaluation Kit
SerDes Single Link Evaluation Board
Parts Number: THEVA231, THEVA236
1. General Description
2. Features
THEVA231 and THEVA236 boards are designed to
evaluate THCV231 and THCV236 for transmission
of Video data between the host and display.
One high-speed lane can carry up to 14bit data at a
pixel clock frequency from 12MHz to 160MHz.
The chipset, which has one high-speed data lane,
can transmit video data up to 1080p/60Hz.
The maximum serial data rate is 4.00Gbps/lane.
Data width selectable
Wide frequency range
AC coupling for high-speed lanes
CDR requires no external frequency reference
Wide Range Supply Voltage from 1.7V to 3.6V
Additional SSCG on data stream
2-wire serial I/F bridge function(400kbps)
Remote side GPIO control and monitoring
3. Overview
(a) THEVA231 (Top Side)
(b) THEVA236 (Top Side)
(c) THEVA231 (Bottom Side)
(d) THEVA236 (Bottom Side)
Figure 1 THEVA231 and THEVA236 View
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4. Power Supply Set Up
This chapter shows power supply condition.
Caution: Check if there is no power-GND short on below red trace before supplying any power.
VCC Power Supply to Each Board
Each evaluation board requires VCC power supply. Use “CON7” and “CON4” connector typically.
(a) THEVA231
(b) THEVA236
Figure 2 Power Supply for Evaluation Board
Power Supply from / to Connector
VCC power supply can be connected to each connector by using solder jumper.
THEVA231
W8: Connect the VCC power supply with pin#13 and 14 of CON8.
W7: Connect the VCC power supply with pin#1, 2 and 3 of Header34.
W9: Connect the VCC power supply with pin#18 and 19 of CON9.
(a)THEVA231 (Top Side)
(b) THEVA231 (Bottom Side)
Figure 3 THEVA231 Power Supply from / to Each Connector
THEVA236
W4: Connect the VCC power supply with pin#1, 2 and 3 of Header17.
W5: Connect the VCC power supply with pin#13 and 14 of CON5
W6: Connect the VCC power supply with pin#18 and 19 of CON6.
(a)THEVA236 (Top Side)
(b) THEVA236 (Bottom Side)
Figure 4 THEVA236 Power Supply from / to Each Connector
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5. CML Line Input / Output Connector Select
CML line input / output connector can be selected by using 0Ω resistors.
1mm Pitch Connector
Mount / unmount following 0Ω resistors to use 1mm pitch connector.
Table 1 Mount / unmount resistors for using 1mm pitch connector
THEVA231
THEVA236
Mount
R140, R141, R142,
R143
R81, R83, R89, R91
Unmount
R144, R145, R147, R149, R150, R155, R156,
R157
R74, R78, R86, R94, R104, R105, R106, R107,
R108, R109, R114, R121, R124, R127
(a)THEVA231 (Top Side)
(b)THEVA236 (Top Side)
Figure 5 Resistors Mounting for 1mm Pitch Connector
0.5mm Pitch Connector
Mount / unmount following 0Ω resistors to use 0.5mm pitch connector.
Table 2 Mount / unmount resistors for using 0.5mm pitch connector
Mount
THEVA231
R147, R149, R155, R157
THEVA236
R108, R109, R121, R124
Unmount
R140, R141, R142, R143, R144, R145, R150,
R156
R74, R78, R81, R83, R86, R89, R91, R94, R104,
R105, R106, R107, R114, R127
(a)THEVA231 (Bottom Side)
(b)THEVA236 (Bottom Side)
Figure 6 Resistors Mounting for 0.5mm Pitch Connector
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SMA connector
Mount / unmount following 0Ω resistors to use SMA connector.
Table 3 Mount / unmount resistors for using SMA connector
THEVA231
THEVA236
Mount
R144, R145, R147, R149, R150,
R155, R156, R157
R104, R107, R108, R109, R114,
R121, R124, R127
Unmount
R140, R141, R142, R143
R74, R78, R81, R83, R86, R89,
R91, R94, R105, R106
(a)THEVA231 (Bottom Side)
(b)THEVA236 (Bottom Side)
Figure 7 Resistors Mounting for SMA Connector
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6. Function setting
Pin#2 of each 3HEADER is connected to IC’s setting pin. Each setting pin’s high or low setting can set by
connecting pin#2 of 3HEADER and VCC or GND level. Setting pin is yellow area in Figure 9.
P6, P9 and P11 of control pin use to control 2-wire serial I/F. P5, P8 and P10 of control pin can select Pull-up or
Open. Control pin is red area in Figure 9.
(a)3HEADER Description
(b)High Level Setting
(c)Low Level Setting
Figure 8 High / Low Setting Description with 3HEADER
(a) THEVA231 (Top Side)
(b) THEVA236 (Top Side)
Figure 9 Position of Function Setting pin and Control pin
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Header setting description
Table 4 THEVA231 Function Setting Description
Silk
Pin Name
Function
PDN0
PDN
RF
RF/BETOUT
SDA
SDA
Power down control
H: Normal Operation, L: Power Down
Input clock triggering edge select(*1)
H: Rising Edge, L: Falling Edge
When Sub-Link Field BET Mode, this pin must be Open.
SDA input / output for 2-wire serial I/F
SCL
SCL
SCL input / output for 2-wire serial I/F
GPIO3
GPIO3
General Purpose Input Output
GPIO4
GPIO4
General Purpose Input Output
(*1)A pin function changes by operation mode. Carry out appropriate transact. (THCV231_THCV236_Rev.1.00_E.pdf and up)
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Table 5 THEVA236 Function Setting Description
Silk
Pin Name
PDN1
PDN1
PDN0
PDN0
COL1
COL1/SD0
COL0
COL0/INT/GPIO2
HFSEL
HFSEL/RCMN
LFSEL
LFSEL
MAINMODE
MAINMODE/RCMP
SUBMODE
HTPDN/SUBMODE
MSSEL
LOCKN/MSSEL
OE
OE
LAT/AIN1
LATEN/SD3/AIN1/GPIO0
TTL/AIN0
TTLDRV/SD2/AIN0/GPIO1
RXDEFSEL
RXDEFSEL
OUTSEL
OUTSEL/SD1
BET
BET
RF
RF/BETOUT
Function
Sub-Link power down control
H: Normal Operation, L: Power Down
Main-Link power down control
H: Normal Operation, L: Power Down
Color Space Converter and Data Width Setting(*1)(*2)
When PDN1=H, this pin must be Open.
Data Width Setting(*1)(*2)
When PDN1=H, this pin must be Open.
High Frequency mode select(*1)
H: Enable, L: Disable
When PDN1=H, this pin must be Open.
Low Frequency mode select
H: Enable, L: Disable
Main-Link Mode Setting(*1)
H: Sync Free Mode, L: V-by-One®HS Mode
When PDN1=H, this pin must be Open.
Sub-Link Mode Setting(*1)
H: Low Speed Data Bridge Mode, L: 2-wire serial I/F Mode
When PDN1=L, this pin must be Open.(*3)
Sub-Link Master/Slave Setting(*1)
H: Sub-Link Master side, L: Sub-Link Slave side
When PDN1=L, this pin must be Open.
Output Enable Control
H: LVCMOS output enable, L: LVCMOS output disable
Field BET Latch Select and Address Setting(*1) (*4)
When Sub-Link Field BET Mode and MSSEL=H, this pin must be
H.
When PDN1=H and MSSEL=H (Sub-Link Slave side), this pin
must be Open.
CML Output Drive Strength Select and Address Setting(*1) (*4)
H: Normal, L: Weak
When PDN1=H and MSSEL=H (Sub-Link Slave side), this pin
must be Open.
Internal Register Default Setting Select.
H: For THCV235, L: For THCV231
Permanent Clock Output Control(*1)
H: Enable, L: Disable
When PDN1=H, this pin must be Open.
Field BET Entry
H: Field BET Entry, L: Normal Operation
Input clock triggering edge select(*1)
H: Rising Edge, L: Falling Edge
When Sub-Link Field BET Mode, this pin must be Open.
(*1)A pin function changes by operation mode. Carry out appropriate control. (THCV231_THCV236_Rev.1.00_E.pdf and up)
(*2)Data Width Setting refers to data sheet for details.
(*3)HTPDN connection is option. Refer to data sheet for details.
(*4)Address Setting for 2-wire serial I/F
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If IC’s pins are used as open-drain output, connect with pull-up resistors (e.g. 10kΩ) and connect P5, P8 and P10
of header.
THEVA231
THEVA236
Mount
R151, R153, R164, R166
R111, R113, R116, R118, R120,
R123, R126
Unmount
R158, R159, R168, R169
R128, R129, R130, R131, R132,
R133, R134
Furthermore, operational (yellow area) / disconnect (red area) following header.
(a) THEVA231 (Top Side)
(b) THEVA236 (Top Side)
Figure 10 Operational / disconnect header
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7. Clock Input from SMA Connector
THEVA231 can also choose the clock input from SMA connector by using 0Ω resistors. If you want to use SMA
connector for clock input, mount the 0Ω resistors on R148 and unmount on R146. This input function is to use
Field BET operation in mainly.
THEVA231 (Top side)
Figure 11 Clock input from SMA connector
8. Status Indicate LED
The following show indicating status of each LED. (*1)
D4: VCC Power Supply Indicator for THEVA231
D3: VCC Power Supply Indicator for THEVA236
(*1) When VCC is over 2.0V, LED indicator will be valid.
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CONT1
2
3
5
6
8
9
11
12
14
15
17
18
20
21
23
24
26
27
29
30
32
33
35
36
38
39
41
42
44
45
47
48
GND
GND
PDN
VDD
GND
2
1
RF
Header35
3HEAD(NC)
SMA103-T16(NC)
CLKIN_CON R146
SMA12
1 CLKIN_SMA R148
R0
R1
R2
R3
R4
R5
R6
R7
R8
R9
2
L12
Header36
3HEAD(NC)
2
GND
C40
10uF
GND
AVDD
SCL
SDA
GPIO4
GPIO3
R2
R3
R4
R5
CLKIN
R6
R7
3
C48
L10Inductor
VCC
MPZ1608R471A
VDD
C36
10uF
L9 Inductor
3
MPZ1608R471A
Inductor
MPZ1608R471A
CLKIN
G0
G1
G2
G3
G4
G5
G6
G7
G8
G9
VSYNC
DE
CONT2
CLKIN_CON
0Ω(NC)
0Ω
VCC
W7
Solder Jumper
VCC
SML-310MT
PCN10-48P-2.54DSA(NC)
46
37
HSYNC
34
31
28
25
22
19
16
13
10
7
4
1
GND
D4
150Ω
R139
VCC
Header34
C39
10uF
B9
B8
B7
B6
B5
B4
B3
B2
2
B
B1
B0
GND
2
GND
VCC
1
2
VDD
R165
R167
R152
R154
AVDD
0.1uF
GND
0Ω
0Ω
0Ω
0Ω
9
10
11
12
13
14
15
16
VCC
SCL_H
SDA_H
GPIO4_H
GPIO3_H
D0
D1
D2
D3
CLKIN
D4
D5
VDD
I2C_PULLUP
C37
10uF
L11Inductor
4
MPZ1608R471A
GND
3
1
A
1
3
R8
R9
G2
G3
3
1
4
2
GND
2
4
Header 2X2(NC)
1
3
P10
P11
Header 2X2(NC)
4
2
4
32
31
30
29
28
27
26
25
33
SCL_S
SDA_S
GPIO4_S
GPIO3_S
CAPINP
CAPINA
TXN
TXP
TCMN
TCMP
CAPOUT
HSYNC
IC3
THCV231
RF/BETOUT
Header 2X2(NC)
1
3
P8
CAPINP
CAPINA
TXN
TXP
TCMN
TCMP
CAPOUT
HSYNC
EXP GND
GND
C38
10uF
CMN_PULLUP
P9
Header 2X2(NC)
G4
DE
VSYNC
1
1
3
GPIO4
GPIO3
SCL
SDA
RF/BETOUT
TEST2
TEST1
PDN
8
7
6
5
4
3
2
1
GPIO4
GPIO3
SCL
SDA
RF/BETOUT
TEST2
TEST1
PDN
D6
D7
D8
D9
AVDD
D10
D11
VSYNC
0.1uF C49
17
18
19
20
21
22
23
24
4
2
0.1uF
0.1uF
TP3
GND
C47 10uF
C41
C42
BETOUT
RF
10kΩ(NC)
10kΩ(NC)
R158
R159
10kΩ(NC)
10kΩ(NC)
R168
R169
5
0.1uF
0.1uF
0.1uF
0.1uF
I2C_PULLUP
10kΩ(NC)
10kΩ(NC)
GND
10kΩ(NC)
10kΩ(NC)
CMN_PULLUP
C43
C44
C45
C46
GND
R164
R166
R151
R153
5
TXN_C
TXP_C
TCMN_C
TCMP_C
VDD
6
TCMN_C
TCMP_C
TXN_C
TXP_C
6
R161
0Ω
R163
0Ω
0Ω(NC)
TEST2
R162
0Ω(NC)
Date:
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A3
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Title
GND
CON9
TCMP_A
TCMN_A
TXP_A
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X:\THCV235\THCV231.SchDoc
Number
THEVA231
CON8
52271-1469(NC)
14
13
12
11
10
9
8
7
6
5
4
3
2
1
SMA11
1
SMA13
1
SMA14
1
SMA103-T16(NC)
R156
0Ω(NC)
SMA103-T16(NC)
R150
0Ω(NC)
SMA103-T16(NC)
R145
0Ω(NC)
8
SMA10
1
SMA103-T16(NC)
R144
0Ω(NC)
Bottom Side
GND
TXN_A
0Ω
0Ω
0Ω
0Ω
GND CN-FFC(0.5)19PD(NC)
0Ω(NC) TCMN_A
0Ω(NC) TCMP_A
0Ω(NC) TXN_A
0Ω(NC) TXP_A
R160
TEST1
R155
R157
R147
R149
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
R142
R143
TCMN_C
TCMP_C
VCC
R140
R141
W9
Solder Jumper
VCC
Header 2(NC)
1
2
P7
W8
Solder Jumper
GND
VCC
TXN_C
TXP_C
7
2
2
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282836-2(NC)
CON7
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THEVA231_THEVA236_UsersGuide_Rev.1.10_E
9. Schematic
Figure 12 THEVA231 Schematic
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GND
2
GND
0Ω
0Ω
0Ω
0Ω
R81
R83
R89
R91
1
MAINMODE 2
VCC
GND
CON6
3HEAD(NC)
LFSEL 2
2
GND
C23
10uF
GND
GND
R138
0Ω
0Ω(NC)
RF
Header24
2
0Ω
0Ω(NC)
TEST2
R137
COL1
Header25
3HEAD(NC)
R136
GND
2
R121 0Ω(NC) RCMN_C
R124 0Ω(NC) RCMP_C
R108 0Ω(NC) RXN_C
R109 0Ω(NC) RXP_C
R135
3HEAD(NC)
R94
RXN
RXP
R68
0Ω
GND
2
GND
3
COL0
Header26
2
2
OE
65
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
2
4
TTLDRV/AIN0 2
Header28
IC2
THCV236
2
5
R110
R112
R115
R117
R119
R122
R125
5
0Ω
0Ω
0Ω
0Ω
0Ω
0Ω
0Ω
6
GND
C28 0.1uF
C27 0.1uF
GND
6
8
9
10
11
12
13
14
R84
R85
R87
R88
R90
R92
R93
R95
R96
R97
R98
R99
R101
R102
B0
B1
B2
B3
B4
B5
B6
B7
B8
B9
HSYNC
VSYNC
CONT1
CONT2
Header33
3HEAD(NC)
10Ω
Date:
File:
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Title
B0_C
B1_C
B2_C
B3_C
B4_C
B5_C
B6_C
B7_C
B8_C
B9_C
G6_C
G7_C
G8_C
G9_C
G0_C
G1_C
G2_C
G3_C
G4_C
R0_C
R1_C
R2_C
R3_C
R4_C
R5_C
R6_C
R7_C
R8_C
R9_C
CONT1_C
CONT2_C
HSYNC_C
VSYNC_C
7
R100 10Ω
R231B 0Ω(NC)
10Ω CLKOUT_C
10Ω
10Ω
10Ω
10Ω
10Ω
10Ω
10Ω
10Ω
10Ω
10Ω
10Ω
10Ω
10Ω
10Ω
10Ω
10Ω
10Ω
10Ω
10Ω
10Ω
10Ω
10Ω
10Ω
10Ω
10Ω
10Ω
10Ω
10Ω
10Ω
10Ω
10Ω
10Ω
10Ω
7
1
2
4
5
7
8
10
11
13
14
16
17
19
20
22
23
25
26
28
29
31
32
34
35
37
38
40
41
43
44
46
47
Header17
R5_C
R7_C
R9_C
18
21
G3_C
G5_C
G7_C
G9_C
DE_C
CLKOUT_C
30
33
36
39
42
45
48
G1_C
27
24
R3_C
15
10kΩ(NC)
10kΩ(NC)
10kΩ(NC)
10kΩ(NC)
10kΩ(NC)
10kΩ(NC)
10kΩ(NC)
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GND
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I2C_PULLUP
CMN_PULLUP
R1_C
12
9
6
3
8
PCN10-48P-2.54DSA(NC)
B5_C
G0_C
B6_C
G2_C
B7_C
G4_C
B8_C
G6_C
B9_C
G8_C
HSYNC_C
VSYNC_C
CONT1_C
CONT2_C
B0_C
R0_C
B1_C
R2_C
B2_C
R4_C
B3_C
R6_C
B4_C
R8_C
GND
R111
R113
R116
R118
R120
R123
R126
DE_C
G5_C
VCC
W4
Solder Jumper
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X:\THCV235\THCV236.SchDoc
Number
THEVA236
GPIO4_S
GPIO3_S
INT/GPIO2_S
GPIO1_S
GPIO0_S
SD1_S
SD0_S
R231A 10Ω(NC)
R72
CLKOUT R103
R76
R79
R80
R82
G6
G7
G8
G9
Header 7X2A(NC)
1
2
3
4
5
6
7
P5
DE
G5
R65
R66
R67
R70
R71
R55
R56
R57
R58
R59
R60
R61
R62
R63
R64
G0
G1
G2
G3
G4
R0
R1
R2
R3
R4
R5
R6
R7
R8
R9
P6
Header 7X2A(NC)
B6
B7
B8
B9
CONT1
CONT2
B0
B1
G9
B2
B3
B4
B5
CLKOUT
RXDEFSEL2
Header32
3HEAD(NC)
MSSEL 2
Header31
3HEAD(NC)
GPIO4_H
GPIO3_H
INT/GPIO2_H
GPIO1_H
GPIO0_H
SD1_H
SD0_H
32
31
30
29
28
27
26
25
24
23
22
21
20
19
18
17
AVDD
VDD
C25 0.1uF
Inductor1005
L8
VDD
D15
D16
D17
D18
D19
CLKOUT
VDD
D20
D21
D22
D23
D24/GPIO3
D25/GPIO4
D26
D27
0.1uF
C35
SUBMODE 2
Header30
3HEAD(NC)
Header21
LATEN/AIN1 2
Header29
CONT2
CONT1
COL0
TTLDRV/AIN0
LATEN/AIN1
OUTSEL
COL1
3HEAD(NC)
3HEAD(NC)
BET
Header20
3HEAD(NC)
EXP GND
VDD
HSYNC
DE
D1
D0
HTPDN/SUBMODE
LOCKN/MSSEL
CAPOUT
RXN
RXP
CAPINA
MAINMODE/RCMN
HFSEL/RCMP
RXDEFSEL
OE
BET
GND
C21
10uF
CMN_PULLUP
3HEAD(NC)
Header19
3HEAD(NC)
BETOUT
RF
TP2
C32 0.1uF
C29 10uF
OUTSEL 2
Header27
VDD
C26 0.1uF
3HEAD(NC)
PDN0
Header18
L7 Inductor
MPZ1608R471A
GND
RXDEFSEL
OE
BET
HSYNC
DE
R3
R2
VCC
RF/BETOUT
3HEAD(NC)
3HEAD(NC)
PDN1
VCC
0Ω(NC) HFSEL
R69
0Ω
I2C_PULLUP
C20
10uF
0Ω(NC) MAINMODE
C33 0.1uF
C34 0.1uF
R86
C30 0.1uF
C31 0.1uF
HTPDN
R105 0Ω(NC) HTPDN
R106 0Ω(NC) LOCKN
TEST1
RCMN_A
RCMP_A
RXN_A
RXP_A
R75
1kΩ(NC)
LOCKN
VCC
GND
RCMN_C
RCMP_C
RXN_C
RXP_C
AVDD
W6
Solder Jumper
GND
VDD
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
VCC
VCC
R200 0Ω
GND
Header23
VDD
C19
10uF
L6 Inductor
CN-FFC(0.5)19PD(NC)
RCMP_A
RCMN_A
RXP_A
RXN_A
HFSEL 2
Header22
3HEAD(NC)
SMA103-T16(NC)
SMA9
1 R127 0Ω(NC)
SMA103-T16(NC)
SMA8
1 R114 0Ω(NC)
SMA103-T16(NC)
SMA7
1 R107 0Ω(NC)
SMA103-T16(NC)
SMA6
1 R104 0Ω(NC)
RCMN_C
RCMP_C
RXN_C
RXP_C
0Ω(NC) HTPDN
0Ω(NC) LOCKN
R74
R78
Bottom Side
GND
Header 2(NC)
2
1
SML-310MT
P4
GND
D3
150Ω
W5
Solder Jumper
VCC
52271-1469(NC)
14
13
12
11
10
9
8
7
6
5
4
3
2
1
2
2
B
CON5
VCC
1
GND
C22
10uF
R54
1
3
2
MPZ1608R471A
1
3
2
L5 Inductor
1
3
A
1
3
MPZ1608R471A
1
3
SUBMODE
MSSEL
1
3
VCC
1
3
1
3
VSYNC
R4
R5
R6
R7
R8
R9
1
3
VCC
1
3
1
3
C24 0.1uF
1
3
4
1
3
G2
G3
G4
G5
G6
G7
G8
48
47
46
45
44
43
42
41
40
39
38
37
36
35
34
33
VSYNC
D2
D3
D4
D5
D6
D7
VDD
AVDD
D8
D9
D10
D11
D12
D13
D14
PDN0
PDN1
LFSEL
TEST1
TEST2
RF/BETOUT
COL0/INT/GPIO2
COL1/SD0
OUTSEL/SD1
TTLDRV/SD2/AIN0/GPIO1
LATEN/SD3/AIN1/GPIO0
D31
D30
D29
D28
VDD
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
PDN0
PDN1
LFSEL
TEST1
TEST2
RF/BETOUT
COL0
COL1
OUTSEL
TTLDRV/AIN0
LATEN/AIN1
R1
R0
G1
G0
3
1
3
2
1
3
7
6
5
4
3
2
1
14
13
12
11
10
9
8
1
1
3
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10kΩ(NC)
10kΩ(NC)
10kΩ(NC)
10kΩ(NC)
10kΩ(NC)
10kΩ(NC)
10kΩ(NC)
Copyright(C) 2018 THine Electronics, Inc.
R128
R129
R130
R131
R132
R133
R134
282836-2(NC)
CON4
D
C
B
A
THEVA231_THEVA236_UsersGuide_Rev.1.10_E
Figure 13 THEVA236 Schematic
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THEVA231_THEVA236_UsersGuide_Rev.1.10_E
10.Bills of Materials
Table 6 THEVA231 BOM
Type
Value / Part No.
Package
Spec
Capacitor
10uF
2012
16V
C36, C37, C38, C39, C40, C47
Reference No.
Quantity Note
6
-
Capacitor
0.1uF
1005
16V
C41, C42, C43, C44, C45, C46, C48, C49
8
-
Connector
282836-2(NC)
5mm pitch
2pin
CON7
1
-
Connector
52271-1469(NC)
1mm pitch
14pin
CON8
1
-
Connector
CN-FFC(0.5)19PD(NC)
0.5mm pitch
12pin
CON9
1
-
Connector
PCN10-48P-2.54DSA(NC)
2.54mm pitch
48pin
Header34
1
-
Connector
SMA103-T16(NC)
1.6mm
5
-
Header
Header, 3X1
2.54mm pitch
-
Header35, Header36
2
-
Header
Header, 2X1
2.54mm pitch
-
P7
1
-
Header
Header, 2X2
2.54mm pitch
-
P8, P9, P10, P11
4
-
IC
THCV231
QFN32
-
IC3
1
-
Inductor
MPZ1608R471A
1608
1.2A
L9, L10, L11, L12
4
-
LED
SML-310MT
1608
Green
D4
1
-
Resistor
150Ω
1005
0.1W
R139
1
-
Resistor
0Ω
1005
1A
R140, R141, R142, R143, R146, R152, R154, R161, R163, R165, R167
11
-
Resistor
0Ω(NC)
1005
1A
R144, R145, R147, R148, R149, R150, R155, R156, R157, R160, R162
11
-
Resistor
10kΩ(NC)
1005
0.1W
8
-
PCB End Jack SMA10, SMA11, SMA12, SMA13, SMA14
R151, R153, R158, R159, R164, R166, R168, R169
Table 7 THEVA236 BOM
Type
Value / Part No.
Package
Spec
Capacitor
10uF
2012
16V
C19, C20, C21, C22, C23, C29
Capacitor
0.1uF
1005
16V
C24, C25, C26, C27, C28, C30, C31, C32, C33, C34, C35
Connector
282836-2(NC)
5mm pitch
2pin
CON4
1
Connector
52271-1469(NC)
1mm pitch
14pin
CON5
1
Connector
CN-FFC(0.5)19PD(NC)
0.5mm pitch
12pin
CON6
1
48pin
Header17
1
Connector
PCN10-48P-2.54DSA(NC) 2.54mm pitch
Connector
SMA103-T16(NC)
Header
Header, 3X1
Header
Header, 2X1
2.54mm pitch
-
Header
Header, 7X2
2.54mm pitch
-
Quantity Note
Reference No.
4
-
16
-
P4
1
P5, P6
2
IC2
1
L5, L6, L7
3
6
1.6mm
PCB End Jack SMA6, SMA7, SMA8, SMA9
Header18, Header19, Header20, Header21, Header22, Header23,
2.54mm pitch
Header24, Header25, Header26, Header27, Header28, Header29,
Header30, Header31, Header32, Header33
11
IC
THCV236
QFN64
-
Inductor
MPZ1608R471A
1608
1.2A
Inductor
MPZ1005S331ET000
1005
700mA
L8
1
LED
SML-310MT
1608
Green
D3
1
Resistor
150Ω
1005
0.1W
R54
1
-
36
-
15
-
17
-
1
-
14
-
1
-
R55, R56, R57, R58, R59, R60, R61, R62, R63, R64, R65, R66, R67,
R70, R71, R72, R76, R79, R80, R82, R84, R85, R87, R88, R90, R92,
R93, R95, R96, R97, R98, R99, R100, R101, R102, R103
R68, R69, R81, R83, R89, R91, R110, R112, R115, R117, R119,
R122, R125, R136, R138
R74, R78, R86, R94, R104, R105, R106, R107, R108, R109, R114,
R121, R124, R127, R135, R137, R231B
Resistor
10Ω
1005
0.1W
Resistor
0Ω
1005
1A
Resistor
0Ω(NC)
1005
1A
Resistor
1kΩ(NC)
1005
0.1W
Resistor
10kΩ(NC)
1005
1A
Resistor
0Ω
1608
0.1W
R75
R111, R113, R116, R118, R120, R123, R126, R128, R129, R130,
R131, R132, R133, R134
R200
Resistor
10Ω(NC)
1005
0.1W
R231A
1
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THEVA231_THEVA236_UsersGuide_Rev.1.10_E
11.Set Items
Table 8 Set Items
TYPE
Part No.
DC Connector
282836-2
FFC Connector for V-by-One®HS Link
52271-1469
FFC 14pin 1mm pitch for V-by-One®HS Link
98267-0299
Pin Header
-
It’s possible to mount these parts on this board and use.
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THEVA231_THEVA236_UsersGuide_Rev.1.10_E
12.Notices and Requests
Please kindly read, understand and accept this “Notices and Requests” before using this product.
For the Material:
1. The product specifications described in this material are subject to change without prior notice.
2. The circuit diagrams described in this material are examples of the application which may not always apply to
design of respective customers. THine Electronics, Inc. (“THine”) is not responsible for possible errors and
omissions in this material. Please note even if the errors or omissions should be found in this material, THine
may not be able to correct them immediately.
3. This material contains THine’s copyright, know-how or other proprietary. Copying or disclosing of the contents
of this material to any third party without THine’s prior permission is strictly prohibited.
For the Product:
1. This product is solely designed for evaluation purpose, and other purposes including mass production and
distribution are not intended.
2. This product has been solely manufactured for electric design engineers but not for end-users.
3. This product is not radiation-tolerant product.
4. This product is presumed to be used for general electric device, not for applications which require extremely
high-reliability/safety (including medical device concerned with critical care, aerospace device, or nuclear
power control device). Also, when using this product for any device concerned with control and/or safety of
transportation means, traffic signal device, or other various types of safety device, such use must be after
applying appropriate measures to the product.
5. This product has been designed with the utmost care to accomplish the purpose of evaluation of IC products
manufactured by THine Electronics, Inc. (“THine”); however, THine MAKES NO WARRANTIES OR
REPRESENTATIONS WITH REGARD TO ANY PERFORMANCE OR FUNCTION OF THIS PRODUCT
IN ANY CIRCUMSTANCES.
6. This product has been manufactured with the utmost care in quality control and product reliability; however,
there may be faults or defects with a low but fixed probability, as inevitable phenomenon concerned with
semiconductor manufacturing processes. Therefore, customers are encouraged to have sufficiently redundant or
error-preventive design applied to the use of the product so as not to have THine’s product cause any social or
public damage. Neither replacement nor failure analysis of the product is available in any case of defects with
the product and/or the product’s components.
7. Customers are asked, if required, to judge by themselves on whether this product falls under the category of
strategic goods under the Foreign Exchange and Foreign Trade Act.
8. Please Note that even if infringement of any third party’s industrial ownership should occur by using this
product, THine will be exempted from any responsibility unless it directly relates to the production process or
functions of the product.
9. Developing, designing and manufacturing of customers’ own products, equipment or system by using of this
product is strictly prohibited in any way.
THine Electronics, Inc.
sales@thine.co.jp
https://www.thine.co.jp
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