THAN0187_Rev.1.10_E
THCV215
215 / THCV216 Evaluation Kit
V-by
by-One®HS Dual Link Evaluation Board
Parts Number:
Number THEVA215-V2, THEVA216-V2
1. General Description
2. Features
THEVA215-V2 and THEVA216-V2
V2 are
designed to evaluate THCV215 and THCV216
for transmission video data. Each has one
THCV215 or THCV216. This kit can transmit
video data of “Full-HD
HD / 60Hz / 30bit”
30bit and
“HD / 120Hz / 30Bit”.
Table 1 Color Width
Width
Link
LVDS Clock Freq.
18bit
Single/Dual 20MHz to 100MHz
24bit
Single/Dual 20MHz to 100MHz
32bit
Single/Dual 20MHz to 85MHz
8
40bit
Single/Dual 20MHz to 75MHz
・Color width selectable : 18/24/32
18/24/32/40 bit
・Single/Dual
Single/Dual Link selectable
・Wide Frequency Range
・PLL requires
equires no external components
・V-by-One®HS standard version 1.4 compliant
3. Overview
(b) THEVA216--V2 (Top Side)
(a) THEVA215-V2 (Top Side)
Figure 1 THEVA215-V2
THEVA21
and THEVA216-V2 Top Side View
(a) THEVA215-V2 (Bottom
Bottom Side)
(b) THEVA216-V2
V2 ((Bottom Side)
Figure 2 THEVA215-V2
THEVA21
and THEVA216-V2 Bottom Side View
THine Electronics, Inc.
Copyright(C) 2015 THine Electronics, Inc.
1/13
Security E
THAN0187_Rev.1.10_E
4. Power Supply Set Up
This chapter shows power supply condition.
Caution: Please check if there is no power-GND short on below red trace before supplying any power.
3.3V Power Supply to Each Board
Each evaluation board requires 3.3V power supply. Please use “CON1” connector typically.
Ground
3.3V Power Supply
Ground
3.3V Power Supply
(a)THEVA215-V2
(b)THEVA216-V2
Figure 3 Power Supply for Evaluation Board
Power Supply from / to Connector
3.3V power supply can be connected to Header1 and CON2 by using W1, W2 and W3solder jumper.
THEVA215-V2
W1: Connect the 3.3V power supply with pin#1 and 2 of CON2.
W2: Connect the 3.3V power supply with pin#13 and 14 of CON3.
W3: Connect the 3.3V power supply with pin#11 and 12 of CON4.
(a)THEVA215-V2 (Top side)
(b) THEVA215-V2 (Bottom side)
Figure 4 THEVA215-V2 Power Supply from / to Each Connector
THine Electronics, Inc.
Copyright(C) 2015 THine Electronics, Inc.
2/13
Security E
THAN0187_Rev.1.10_E
THEVA216-V2
W1: Connect the 3.3V power supply with pin#29 and 30 of CON2.
W2: Connect the 3.3V power supply with pin#1 and 2 of CON3.
W1
W2
Figure 5 THEVA216-V2 Power Supply from / to Each Connector
5. V-by-One®HS Input / Output Connector Select
V-by-One®HS input / output connector can be selected by using 0ohm resistors.
(1) 1mm Pitch Connector (Default Setting)
Please mount / unmount following 0ohm resistors to use 1mm pitch connector.
Table 2
THEVA215-V2
THEVA216-V2
Mount
R7, R8, R9, R10, R11, R12
R12, R13, R14, R15, R16, R17
Unmount
R23, R25, R26, R31, R33, R34
R25, R26, R27, R29, R30, R31
HTPDN/LOCKN output
HTPDN/LOCKN input
TX0
RX0
TX1
RX1
V-by-One®HS input
V-by-One®HS output
(a)THEVA215-V2 (Top side)
(b)THEVA216-V2 (Top side)
Figure 6 Resistor Mounting for 1mm Pitch Connector
THine Electronics, Inc.
Copyright(C) 2015 THine Electronics, Inc.
3/13
Security E
THAN0187_Rev.1.10_E
(2) 0.5mm Pitch Connector
Please mount / unmount following 0ohm resistors to use 0.5mm pitch connector.
Table 3
Mount
R23, R25, R26, R31, R33, R34
R25, R26, R27, R29, R30, R31
THEVA215-V2
THEVA216-V2
Unmount
R7, R8, R9, R10, R11, R12
R12, R13, R14, R15, R16, R17
V-by-One®HS input
®
V-by-One HS output
RX1
RX0
TX1
TX0
HTPDN/LOCKN output
HTPDN/LOCKN input
(a)THEVA215-V2 (Bottom side)
(b)THEVA216-V2 (Bottom side)
Figure 7 Resistor Mounting for 0.5mm Pitch Connector
(3) SMA Connector
Please mount / unmount following 0ohm resistors to use SMA connector.
*HTPDN and LOCKN signals don’t have SMA connector input / output connection.
Table 4
THEVA215-V2
THEVA216-V2
Mount
R26, R31, R33, R34, R23, R25, R26, R31, R33, R34
R27, R29, R30, R31, R25, R26, R27, R29, R30, R31
Unmount
R7, R8, R9, R10, R11, R12
R12, R13, R14, R15, R16, R17
V-by-One®HS input
V-by-One®HS output
(a)THEVA215-V2 (Bottom side)
(b)THEVA216-V2 (Bottom side)
Figure 8 Resistor Mounting for SMA Connector
THine Electronics, Inc.
Copyright(C) 2015 THine Electronics, Inc.
4/13
Security E
THAN0187_Rev.1.10_E
6. Function Setting
Setting pin of each board is shown in yellow area of figure9. 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 high level or low level.
Figure 9 Position of Function Setting Pin
High side
High setting
Connected with
IC s setting pin
Low setting
Low side
(a)3HEADER Description
(b)High Level Setting
Figure 10 High / Low Setting Description
(c)Low Level Setting
7. Clock Input from SMA Connector
THEVA215-V2 can also choose the TTL clock input from SMA connector, and it will be converted to LVDS
clock signal by LVDS Buffer IC(SN65LVDS105S). If you want to use SMA connector for clock input, please
mount the IC and resistor as below.
Table 5
R14
10kohm
R15
0ohm
R16
10kohm
R17
0ohm
R18
10kohm
R19
0ohm
R20
0ohm
R22
0ohm
R24
10kohm
Figure 11 TTL Clock Input Connector Select
THine Electronics, Inc.
Copyright(C) 2015 THine Electronics, Inc.
5/13
Security E
THAN0187_Rev.1.10_E
8. Status Indicate LED
The following table shows indicating status of each LED.
Table 6
D1
D2
THEVA215-V2
THEVA216-V2
3.3V Power Supply Indicator
LOCKN Status Indicator
9. LOCKN Sharing , HTPDN Omission and Level Shift
LOCK sharing
LOCKN connection can be shared with V-by-One®HS trace. When you share the LOCKN signal, Please
mount 1k ohm resistors to share the LOCKN signal, and unmount the 0ohm resistors shown in Figure 12.
R6:Mount(1k
)
R8:Unmount
LOCKN
TXN
(a)THEVA215-V2 (Top Side)
(b)THEVA216-V2 (Top Side)
(c) THEVA215-V2 (Bottom Side)
(d) THEVA216-V2 (Bottom Side)
Figure 12 LOCKN Sharing
THine Electronics, Inc.
Copyright(C) 2015 THine Electronics, Inc.
6/13
Security E
THAN0187_Rev.1.10_E
HTPDN Signal Omission
HTPDN signal can be omitted by using 1k ohm resistor. When you omit the HTPDN signal, Please mount 1k
ohm resistors to pull down the HTPDN signal at transmitter side, and unmount the 0ohm resistors shown in
Figure 13. When the HTPDN omission using, HTPDN output from receiver side is open connection.
R3:Unmount(10k
)
R5:Mount(1k
R2, R12:Unmount
)
R7:Unmount
(a)THEVA215-V2 (Top Side)
(b)THEVA216-V2 (Top Side)
R23:Unmount
(c)THEVA215-V2 (Bottom Side)
(d)THEVA216-V2 (Bottom Side)
Figure 13 HTPDN Signal Omission
HTPDN and LOCKN Level Shift
When using THCV216 with high VDD V-by-One®HS transmitter, user have to take care of HTPDN/LOCKN
connection because THCV216 HTPDN/LOCKN output pins absolute maximum ratings are VDL+0.3V;
therefore high VDD pull-up at transmitter side can cause violation of usage. THEVA216-V2 can shift the
HTPDN/LOCKN level by the additional circuit. If you want to connect THCV216 with high VDD
V-by-One®HS transmitter, please mount and unmount the IC and resistors as Figure 14.
R3, 4, 9, 10 :Mount(10k
)
R8, 18 :Mount(0 )
U1,2,3,4 :Mount(SSM3K16FC)
(a)THEVA216-V2 (Top Side)
(b)THEVA216-V2 (Bottom Side)
Figure 14 HTPDN and LOCKN Level Shift
THine Electronics, Inc.
Copyright(C) 2015 THine Electronics, Inc.
7/13
Security E
THAN0187_Rev.1.10_E
10. Function
This chapter shows function setting of THEVA215-V2 and THEVA216-V2.
Table 7 THEVA215-V2 Function Setting Description
Silk
Symbol
PDN
PDN
COL0, 1
COL0,1
SDSEL
SDSEL
RRE1
PRE1
RES1
Reserved1
Function
Power down input.
H: Normal Operation
L: Power Down(CML output High Fix, other Hi-Z)
Color depth select input
L,L : 6bit
H, L : 8bit
L,H : 10bit
H,H : 12bit
Single/Dual select input
H: Channel0, Channel1 Enable
L: Channel0 Enable, Channel1 Disable
Pre emphasis level select input
H : 100% L : 0%
Field BET mode enable input
H : Field BET Mode Enable L : Normal Operation
Table 8 THEVA216-V2 Function Setting Description
Silk
Symbol
COL0, 1
COL0,1
SDSEL
SDSEL
RS
RS
PDN
PDN
RES3
Reserved3
Function
Color depth select input
L,L : 6bit
H, L : 8bit
L,H : 10bit
H,H : 12bit
Single/Dual select input
H: Channel0, Channel1 Enable
L: Channel0 Enable, Channel1 Disable
Direction of RS pin depends on Reserved3.
LVDS swing range select input when Reserved3=L.
H: Normal Swing (350mV typ.)
L: Reduced Swing (200mV typ.)
Field BET output when Reserved3=H, Goes LOW when errors
detected.
Power down input.
H: Normal Operation
L: Power Down(CML output High Fix, other Hi-Z)
Field BET mode enable input
H : Field BET Mode Enable
L : Normal Operation
THine Electronics, Inc.
Copyright(C) 2015 THine Electronics, Inc.
8/13
Security E
D
C
B
A
GND
2
C6
10uF
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
GND
10kΩ(NC)
R24
1
GND
GND
0Ω(NC)
10kΩ(NC)
10kΩ(NC)
10kΩ(NC)
1
2
3
4
5
6
7
8
GND
GND
2
16
EN1
1Y
15
EN2
1Z
14
EN3
2Y
13
VCC
2Z
12
GND
3Y
11
A
3Z
10
NC
4Y
9
EN4
4Z
IC3
SN65LVDS105D(NC)
C22
TLCLK0N
TLCLK0P
TLCLK1N
TLCLK1P
Header1
RES1
L2
2
Header2
PRE1
2
4
VDL
Header3
2
RES0
CAVDL
COL1
3HEAD(NC)
GND
R35
0Ω
L3
CPVDL
GND
Header4
COL0
3HEAD(NC)
R36
0Ω
4.7uF
C24
2
DRV1
L4
DRV1
DRV0
PRE1
PRE0
RES0
RES1
SDSEL
COL1
COL0
RDY
PDN
HTPDN
LOCKN
RDY
5
Header5
PDN
2
Header6
3HEAD(NC)
R38
0Ω(NC)
R30
0Ω
0.1uF
0.1uF
C17
C18
TX1N
TX1P
DRV0
0.1uF
0.1uF
C15
C16
GND
R5
1kΩ(NC)
R3
10kΩ
VDL
GND
L5
6
R33
R34
R26
R31
R23
R25
6
GND
0Ω(NC)
0Ω(NC)
0Ω(NC)
0Ω(NC)
0Ω(NC)
0Ω(NC)
Bottom Side
TX1N_C
TX1P_C
TX0N_C
TX0P_C
HTPDN
LOCKN
TX1N_C
TX1P_C
TX0N_C
TX0P_C
GND
Date:
File:
A3
Size
R9
R10
R11
R12
TX0N_C
TX0P_C
TX1N_C
TX1P_C
CN-FFC(0.5)12PD(NC)
CON4
R7
R8
HTPDN
LOCKN
7
7
2015/02/26
\\..\THCV215.SchDoc
Number
THEVA215-V2
GND
Title
TX1N_A
TX1P_A
TX0N_A
TX0P_A
Solder Jumper
12
11
10
9
8
7
6
5
4
3
2
1
VDD3.3
W3
D2
SML-310MT
R2
51Ω
VDL
CPVDL
C5
10uF
GND
U1
SSM3K16FS
R6
1kΩ(NC)
R4
10kΩ
Inductor
MPZ1608R471A
VDD1.8
TX0N
TX0P
3HEAD(NC)
R37
0Ω
R29
0Ω(NC)
CAVDL
C4
10uF
HTPDN
TP1
Inductor
MPZ1608R471A
GND
0.01uF
C23
0.01uF
0.01uF
C20
C21
0.01uF
0.01uF
C14
C19
0.01uF
0.01uF
4.7uF
5
VDD1.8
C13
C11
C10
C9
4.7uF
LPVDL
C3
10uF
R28
0Ω(NC)
Inductor
MPZ1608R471A
VDD1.8
R27
0Ω(NC)
VDD1.8
PRE0
64
63
62
61
60
59
58
57
56
55
54
53
52
51
50
49
48
47
46
45
44
43
42
41
40
39
38
37
36
35
34
33
4
VDL
LPVDL
C2
10uF
GND
3HEAD(NC)
LPVDL
LPGND
SDSEL
COL1
COL0
RDY
PDN
HTPDN
LOCKN
VDL
GND
CAVDL
CAGND
TX0n
TX0p
CAGND
TX1n
TX1p
CAGND
CAVDL
CPGND
CPVDL
DRV1
DRV0
PRE1
PRE0
Reserved0
Reserved1
GND
VDL
LPGND
LPVDL
Inductor
MPZ1608R471A
VDD1.8
LAGND
LAVDH
TLA0TLA0+
TLB0TLB0+
TLC0TLC0+
TLCLK0TLCLK0+
TLD0TLD0+
TLE0TLE0+
TLF0TLF0+
TLA1TLA1+
TLB1TLB1+
TLC1TLC1+
TLCLK1TLCLK1+
TLD1TLD1+
TLE1TLE1+
TLF1TLF1+
LAVDH
LAGND
3HEAD(NC)
GND
3
SDSEL 2
VDD1.8
Bottom Side
0Ω(NC)
0Ω(NC)
0Ω(NC)
0Ω(NC)
0.01uF
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
IC2
THCV215
LAVDH
C1
10uF
GND
LAVDH
C12 0.01uF
GND
TLA0N
TLA0P
TLB0N
TLB0P
TLC0N
TLC0P
TLCLK0N
TLCLK0P
TLD0N
TLD0P
TLE0N
TLE0P
TLF0N
TLF0P
TLA1N
TLA1P
TLB1N
TLB1P
TLC1N
TLC1P
TLCLK1N
TLCLK1P
TLD1N
TLD1P
TLE1N
TLE1P
TLF1N
TLF1P
R15
R17
R19
R20
L1
Inductor
MPZ1608R471A
LVTTL to LVDS Convert for BET MODE
TP5
TP4
TP3
TP2
C8
10uF
OUTPUT
4
C7
10uF
R22
R14
R16
R18
VDD3.3
GND
TLA0N
TLA0P
TLB0N
TLB0P
TLC0N
TLC0P
TLCLK0N
TLCLK0P
TLD0N
TLD0P
TLE0N
TLE0P
TLA1N
TLA1P
TLB1N
TLB1P
TLC1N
TLC1P
TLCLK1N
TLCLK1P
TLD1N
TLD1P
TLE1N
TLE1P
W1
Solder Jumper
D1
LED0
SMA103-T16(NC)
SMA3
1
GND
VDD3.3
52271-3069(NC)
CON2
GND
VCC
1
GND
R1
150Ω
INPUT
1
GND GND
2
282836-2(NC)
CON1
2
3
1
3
3
VDD3.3
1
3
VDD1.8
1
3
2
1
3
IC1
uPC2918BT
1
3
VDD3.3
1
3
TX1P_A
TX1N_A
TX0P_A
TX0N_A
0Ω
0Ω
0Ω
0Ω
0Ω
0Ω
R39
R32
R21
R13
1
SMA1
1
SMA2
1
SMA4
1
SMA5
Sheet 1 of 1
Drawn By:
8
Revision
SMA103-T16(NC)
0Ω(NC)
SMA103-T16(NC)
0Ω(NC)
SMA103-T16(NC)
0Ω(NC)
1.00
GND
52271-1469(NC)
CON3
SMA103-T16(NC)
0Ω(NC)
GND
Solder Jumper
14
13
12
11
10
9
8
7
6
5
4
3
2
1
VDD3.3
W2
8
2
2
9/13
2
Copyright(C) 2015 THine Electronics, Inc.
2
1
D
C
B
A
THAN0187_Rev.1.10_E
11. Schematic
Figure 15 THEVA215-V2 Schematic
THine Electronics, Inc.
Security E
D
C
B
A
1
2
3
4
5
6
7
8
9
10
11
12
13
14
GND
0Ω
0Ω(NC) LOCKN_H
R6
R7
0Ω
0Ω
0Ω
0Ω
R14
R15
R16
R17
R19
0Ω
0Ω
R12
R13
R22
R28
R32
SMA103-T16(NC)
SMA4
1
SMA103-T16(NC)
SMA3
1
SMA103-T16(NC)
SMA2
1
SMA103-T16(NC)
SMA1
1
GND
1
0Ω(NC) HTPDN_H
R5
0Ω(NC)
0Ω(NC)
0Ω(NC)
0Ω(NC)
4
C8
10uF
RX1P_A
RX1N_A
RX0P_A
RX0N_A
RX1N_C
RX1P_C
RX0N_C
RX0P_C
HTPDN_C
LOCKN_C
LOCKN
0Ω
R2
HTPDN
D1
SML-310MT
R1
150Ω
GND
W2
Solder Jumper
VDD3.3
LOCKN_C
HTPDN_C
52271-1469(NC)
CON3
C7
10uF
GND
GND
2
GND
VCC
1
2
2
2
2
INPUT
1
GND GND
2
GND
2
OUTPUT
CON4
LOCKN_H
GND
HTPDN_H
GND
C9
10uF
GND
1
2
3
4
5
6
7
8
9
10
11
12
VDD3.3
GND
R30
R31
R27
R29
R25
R26
3
LOCKN
R10
10kΩ(NC)
VDL
0Ω(NC)
0Ω(NC)
0Ω(NC)
0Ω(NC)
0Ω(NC)
0Ω(NC)
RX1N_C
RX1P_C
RX0N_C
RX0P_C
HTPDN_C
LOCKN_C
RX1N
RX1P
0.1uF
0.1uF
C20
C21
RX1N_C
RX1P_C
GND
4
Header1
RES3
3HEAD(NC)
Header2
COL1
3HEAD(NC)
RES1
PDN
RES2
RES3
RS
RX0N
RX0P
0.1uF
0.1uF
SDSEL
COL1
COL0
HTPDN
LOCKN
C18
C19
2
L3
Inductor
MPZ1608R471A
VDD1.8
R11
1kΩ(NC)
LPVDH
C2
10uF
GND
4
RX0N_C
RX0P_C
VDD1.8
SDSEL 2
HTPDN
L2
Inductor
MPZ1608R471A
VDD3.3
R4
10kΩ(NC)
VDL
Bottom Side
Bottom Side
RX1N_A
RX1P_A
RX0N_A
RX0P_A
HTPDN_A
LOCKN_A
GND
U4
SSM3K16FS(NC)
0Ω(NC)
R9
10kΩ(NC)
VDD3.3
R18
U3
SSM3K16FS(NC)
GND
GND
C1
10uF
LAVDH
U2
SSM3K16FS(NC)
0Ω(NC)
R3
10kΩ(NC)
VDD3.3
R8
L1
Inductor
MPZ1608R471A
VDD3.3
U1
SSM3K16FS(NC)
VDD1.8
CN-FFC(0.5)12PD(NC)
3
282836-2(NC)
CON1
1
3
3
1
3
2
0.01uF
0.01uF
0.01uF
0.01uF
0.01uF
0.01uF
0.01uF
4.7uF
C15
C16
C17
C22
C23
C24
C26
C27
2
COL0
5
Header3
3HEAD(NC)
0.01uF
C13
2
VDL
R23
0Ω
R20
0Ω(NC)
Header4
PDN
2
LPVDH
LPGND
SDSEL
COL1
COL0
HTPDN
LOCKN
VDL
GND
CPVDL0
CPGND0
CAVDL
CAGND
RX0n
RX0p
CAGND
CAGND
RX1n
RX1p
CAGND
CAVDL
CPGND1
CPVDL1
GND
VDL
Reserved1
PDN
Reserved2
Reserved3
RS
LPGND
LPVDH
GND
Header5
6
RS
3HEAD(NC)
R24
0Ω
R21
0Ω(NC)
Bottom Side
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
RES2
LPVDH
L5
GND
2
GND
Header6
VDD3.3
3HEAD(NC)
64
63
62
61
60
59
58
57
56
55
54
53
52
51
50
49
48
47
46
45
44
43
42
41
40
39
38
37
36
35
34
33
Title
A3
Date:
File:
GND
Number
7
2015/02/26
\\..\THCV216.SchDoc
TP4
TP3
TP2
TP1
CPVDL1
C6
10uF
RLA0N
RLA0P
RLB0N
RLB0P
RLC0N
RLC0P
RLCLK0N
RLCLK0P
RLD0N
RLD0P
RLE0N
RLE0P
RLF0N
RLF0P
RLA1N
RLA1P
RLB1N
RLB1P
RLC1N
RLC1P
RLCLK1N
RLCLK1P
RLD1N
RLD1P
RLE1N
RLE1P
RLF1N
RLF1P
THEVA216-V2
GND
0.01uF
C14 0.01uF
C25
Size
L6
7
Inductor
MPZ1608R471A
VDD1.8
LAVDH
CPVDL0
C5
10uF
LAGND
LAVDH
RLA0RLA0+
RLB0RLB0+
RLC0RLC0+
RLCLK0RLCLK0+
RLD0RLD0+
RLE0RLE0+
RLF0RLF0+
RLA1RLA1+
RLB1RLB1+
RLC1RLC1+
RLCLK1RLCLK1+
RLD1RLD1+
RLE1RLE1+
RLF1RLF1+
LAVDH
LAGND
Inductor
MPZ1608R471A
VDD1.8
6
IC2
THCV216
CAVDL
C4
10uF
GND
3HEAD(NC)
GND
RES1
VDD1.8
4.7uF
C12
CAVDL
CPVDL0
4.7uF
CPVDL1
GND
L4
Inductor
MPZ1608R471A
VDD1.8
C11
C10
VDL
5
4.7uF
C3
10uF
GND
1
3
IC1
uPC2918BT
1
3
VDD3.3
1
3
10/13
1
Copyright(C) 2015 THine Electronics, Inc.
3
1
8
1.00
52271-3069(NC)
CON2
Revision
GND
Sheet 1 of 1
Drawn By:
RLA0N
RLA0P
RLB0N
RLB0P
RLC0N
RLC0P
RLCLK0N
RLCLK0P
RLD0N
RLD0P
RLE0N
RLE0P
RLA1N
RLA1P
RLB1N
RLB1P
RLC1N
RLC1P
RLCLK1N
RLCLK1P
RLD1N
RLD1P
RLE1N
RLE1P
30
29
28
27
26
25
24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
VDD3.3
W1
Solder Jumper
8
D
C
B
A
THAN0187_Rev.1.10_E
Figure 16 THEVA216-V2 Schematic
THine Electronics, Inc.
Security E
THAN0187_Rev.1.10_E
12. Bills of Materials
Table 9 THEVA215-V2 BOM
TYPE
Capacitor
Capacitor
Capacitor
Capacitor
Connector
Connector
Connector
Connector
Connector
Header
IC
IC
IC
IC
Inductor
LED0
Resistor
Resistor
Resistor
Resistor
Resistor
Value / Part No.
Package
10uF
2012
4.7uF
1005
0.01uF
1005
0.1uF
1005
282836-2(NC)
5mm_pitch
52271-3069(NC)
1mm_pitch
52271-1469(NC)
1mm_pitch
CN-FFC(0.5)12PD(NC) 0.5mm_pitch
SMA103-T16(NC)
1.6mm
3HEAD(NC)
2.54mm_pitch
uPC2918BT
SC-63
THCV215
TSSOP64
SN65LVDS105D(NC)
TSSOP
SSM3K16FS
SSM
MPZ1608R471A
1608
SML-310MT
1608
51Ω
1005
150Ω
1005
10kΩ
1005
1kΩ(NC)
1005
0Ω
1005
SPEC
16V
16V
16V
16V
2pin
30pin
14pin
12pin
PCB End Jack
--1A
--4V
RON15Ω
1.2A
GREEN
0.1W
0.1W
0.1W
0.1W
1A
Resistor
0Ω(NC)
1005
1A
Resistor
10kΩ(NC)
1005
0.1W
Reference No.
C1, C2, C3, C4, C5, C6, C7, C8
C9, C10, C24
C11, C12, C13, C14, C19, C20, C21, C22, C23
C15, C16, C17, C18
CON1
CON2
CON3
CON4
SMA1, SMA2, SMA3, SMA4, SMA5
Header1, Header2, Header3, Header4, Header5, Header6
IC1
IC2
IC3
U1
L1, L2, L3, L4, L5
D1,D2
R2
R1
R3, R4
R5, R6
R7, R8, R9, R10, R11, R12, R30, R35, R36, R37
R13, R15, R17, R19, R20, R21, R22, R23, R25, R26, R27, R28,
R29, R31, R32, R33, R34, R38, R39
R14, R16, R18, R24
Q'ty Note
8
3
9
4
1
1
1
1
5
6
1
1
1
1
5
1
1
1
3
2
10
19
4
Table 10 THEVA216-V2 BOM
TYPE
Capacitor
Capacitor
Capacitor
Capacitor
Connector
Connector
Connector
Connector
Connector
Header
IC
IC
IC
Inductor
LED0
Resistor
Resistor
Resistor
Value / Part No.
Package
10uF
2012
4.7uF
1005
0.01uF
1005
0.1uF
1005
282836-2(NC)
5mm_pitch
52271-3069(NC)
1mm_pitch
52271-1469(NC)
1mm_pitch
CN-FFC(0.5)12PD(NC) 0.5mm_pitch
SMA103-T16(NC)
1.6mm
3HEAD(NC)
2.54mm_pitch
uPC2918BT
SC-63
THCV216
TSSOP64
SSM3K16FS
SSM
MPZ1608R471A
1608
SML-310MT
1608
150Ω
1005
0Ω
1005
10kΩ(NC)
1005
SPEC
16V
16V
16V
16V
2pin
30pin
14pin
12pin
PCB End Jack
--1A
--RON15Ω
1.2A
GREEN
0.1W
1A
0.1W
Resistor
0Ω(NC)
1005
1A
Resistor
1kΩ(NC)
1005
0.1W
Reference No.
C1, C2, C3, C4, C5, C6, C7, C8, C9
C10, C11, C12, C27
C13, C14, C15, C16, C17, C22, C23, C24, C25, C26
C18, C19, C20, C21
CON1
CON2
CON3
CON4
SMA1, SMA2, SMA3, SMA4
Header1, Header2, Header3, Header4, Header5, Header6
IC1
IC2
U1, U2, U3, U4
L1, L2, L3, L4, L5, L6
D1
R1
R2, R6, R12, R13, R14, R15, R16, R17, R23,R24, R25
R3, R4, R9, R10
R5, R7, R8, R18, R19, R20, R21, R22, R26, R27, R28, R29, R30,
R31, R32
R11
Q'ty Note
9
4
10
4
1
1
1
1
4
6
1
1
4
6
1
1
10
4
16
1
THine Electronics, Inc.
Copyright(C) 2015 THine Electronics, Inc.
11/13
Security E
THAN0187_Rev.1.10_E
13. Set Items
Table 11 Set Items
TYPE
Part No.
DC Connector
282836-2
FFC Connector for V-by-One®HS Link
®
FFC 14pin 1mm pitch for V-by-One HS Link
Pin Header
52271-1469
98267-0299
---
It's possible to mount these parts on this board and use.
THine Electronics, Inc.
Copyright(C) 2015 THine Electronics, Inc.
12/13
Security E
THAN0187_Rev.1.10_E
14. 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 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 mean, 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., however, THine MAKES NO WARRANTIES OR
REPRESENTATIONS WITH REGARD TO ANY PERFORMANCE OR FUNCTION OF THIS
PRODUCT IN ANY CIRCUMSTANCE.
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. Replacement of the product is only available in
case of obvious defects of mount devices at the point of unpacking the product. Neither replacement
nor failure analysis of the product is available in any other 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 Control Law.
8. Please Note that 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, equipments or system by using
of this product is strictly prohibited in any way.
THine Electronics, Inc.
sales@thine.co.jp
THine Electronics, Inc.
Copyright(C) 2015 THine Electronics, Inc.
13/13
Security E