Post on 13-Oct-2020
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THCV215 / THCV216 Evaluation Kit V-by-One®HS Dual Link Evaluation Board
Parts Number: THEVA215-V2, THEVA216-V2
1. General Description THEVA215-V2 and THEVA216-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 / 60Hz / 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
40bit Single/Dual 20MHz to 75MHz
2. Features ・Color width selectable : 18/24/32/40 bit
・Single/Dual Link selectable
・Wide Frequency Range
・PLL requires no external components
・V-by-One®HS standard version 1.5 compliant
3. Overview
(a) THEVA215-V2 (Top Side)
(b) THEVA216-V2 (Top Side)
Figure 1 THEVA215-V2 and THEVA216-V2 Top Side View
(a) THEVA215-V2 (Bottom Side) (b) THEVA216-V2 (Bottom Side)
Figure 2 THEVA215-V2 and THEVA216-V2 Bottom Side 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.
3.3V Power Supply to Each Board
Each evaluation board requires 3.3V power supply. Use “CON1” connector typically.
3.3V Power Supply
Ground
3.3V Power Supply
Ground
(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
W1
W2 W3
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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.
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) Mount / unmount following 0ohm resistors to use 1mm pitch connector.
Table 2
Mount Unmount
THEVA215-V2 R7, R8, R9, R10, R11, R12 R23, R25, R26, R31, R33, R34
THEVA216-V2 R12, R13, R14, R15, R16, R17 R25, R26, R27, R29, R30, R31
(a)THEVA215-V2 (Top side) (b)THEVA216-V2 (Top side)
Figure 6 Resistor Mounting for 1mm Pitch Connector
W1
W2
V-by-One®HS output
HTPDN/LOCKN input
TX0
TX1
V-by-One®HS input
HTPDN/LOCKN output
RX0
RX1
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(2) 0.5mm Pitch Connector
Mount / unmount following 0ohm resistors to use 0.5mm pitch connector.
Table 3
Mount Unmount
THEVA215-V2 R23, R25, R26, R31, R33, R34 R7, R8, R9, R10, R11, R12
THEVA216-V2 R25, R26, R27, R29, R30, R31 R12, R13, R14, R15, R16, R17
(a)THEVA215-V2 (Bottom side) (b)THEVA216-V2 (Bottom side)
Figure 7 Resistor Mounting for 0.5mm Pitch Connector
(3) SMA Connector
Mount / unmount following 0ohm resistors to use SMA connector.
*HTPDN and LOCKN signals don’t have SMA connector input / output connection.
Table 4
Mount Unmount
THEVA215-V2 R26, R31, R33, R34, R23, R25, R26, R31, R33, R34 R7, R8, R9, R10, R11, R12
THEVA216-V2 R27, R29, R30, R31, R25, R26, R27, R29, R30, R31 R12, R13, R14, R15, R16, R17
(a)THEVA215-V2 (Bottom side) (b)THEVA216-V2 (Bottom side)
Figure 8 Resistor Mounting for SMA Connector
V-by-One®HS output
HTPDN/LOCKN input
TX0
TX1
V-by-One®HS input
HTPDN/LOCKN output
RX0
RX1
V-by-One®HS output
V-by-One®HS input
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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
(a)3HEADER Description (b)High Level Setting (c)Low Level Setting
Figure 10 High / Low Setting Description
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,
mount the IC and resistor as below.
Table 5
Figure 11 TTL Clock Input Connector Select
Setting pin
Setting pin
Connected with
IC’s setting pin
High side
Low side
High setting
Low setting
Clock input from SMA3 R14 10kohm
R15 0ohm
R16 10kohm
R17 0ohm
R18 10kohm
R19 0ohm
R20 0ohm
R22 0ohm
R24 10kohm
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8. Status Indicate LED
The following table shows indicating status of each LED.
Table 6
THEVA215-V2 THEVA216-V2
D1 3.3V Power Supply Indicator
D2 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, mount 1k
ohm resistors to share the LOCKN signal, and unmount the 0ohm resistors shown in Figure 12.
(a)THEVA215-V2 (Top Side) (b)THEVA216-V2 (Top Side)
(c) THEVA215-V2 (Bottom Side) (d) THEVA216-V2 (Bottom Side)
Figure 12 LOCKN Sharing
TXN
LOCKN
R6:Mount(1kΩ)R8:Unmount
LOCKN
RXN
R11:Mount(1kΩ)
R6,13:Unmount
R25:Unmount
R26:Unmount
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HTPDN Signal Omission HTPDN signal can be omitted by using 1k ohm resistor. When you omit the HTPDN signal, 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.
(a)THEVA215-V2 (Top Side) (b)THEVA216-V2 (Top Side)
(c)THEVA215-V2 (Bottom Side) (d)THEVA216-V2 (Bottom Side)
Figure 13 HTPDN Signal Omission
R5:Mount(1kΩ)
R3:Unmount(10kΩ)
R7:Unmount
R2, R12:Unmount
R23:Unmount
R25, 5:Unmount
R5
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10. Function
This chapter shows function setting of THEVA215-V2 and THEVA216-V2.
Table 7 THEVA215-V2 Function Setting Description
Silk Symbol Function
PDN PDN
Power down input.
H: Normal Operation
L: Power Down(CML output High Fix, other Hi-Z)
COL0, 1 COL0,1
Color depth select input
L,L : 6bit
H, L : 8bit
L,H : 10bit
H,H : 12bit
SDSEL SDSEL
Single/Dual select input
H: Channel0, Channel1 Enable
L: Channel0 Enable, Channel1 Disable
RRE1 PRE1 Pre emphasis level select input
H : 100% L : 0%
RES1 Reserved1 Field BET mode enable input
H : Field BET Mode Enable L : Normal Operation
Table 8 THEVA216-V2 Function Setting Description
Silk Symbol Function
COL0, 1 COL0,1
Color depth select input
L,L : 6bit
H, L : 8bit
L,H : 10bit
H,H : 12bit
SDSEL SDSEL
Single/Dual select input
H: Channel0, Channel1 Enable
L: Channel0 Enable, Channel1 Disable
RS RS
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.
PDN PDN
Power down input.
H: Normal Operation
L: Power Down(CML output High Fix, other Hi-Z)
RES3 Reserved3 Field BET mode enable input
H : Field BET Mode Enable L : Normal Operation
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11. Schematic
Figure 14 THEVA215-V2 Schematic
11
22
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CC
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1
2
3
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Hea
der1
1
2
3
3HE
AD
(NC
)
Hea
der2
1
2
3
3HE
AD
(NC
)
Hea
der3
1
2
3
3HE
AD
(NC
)
Hea
der4
1
2
3
3HE
AD
(NC
)
Hea
der5
1
2
3
3HE
AD
(NC
)
Hea
der6
GN
D
SD
SE
LR
ES
1C
OL
1C
OL
0P
RE
1P
DN
GN
D
0ΩR7
HT
PD
NL
OC
KN
TX
0N_C
TX
0P_C
GN
D
5227
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0ΩR9
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3
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ND
VD
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3
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SM
A1
TX
0N_A
TX
0P_A
TX
1N_C
TX
1P_C
0ΩR11
0ΩR12
0Ω(NC)
R23
HT
PD
NL
OC
KN
TX
0N_C
TX
0P_C
0Ω(NC)
R25
0Ω(NC)
R26
0Ω(NC)
R31
TX
1N_C
TX
1P_C
0Ω(NC)
R33
0Ω(NC)
R34
TX
1N_A
TX
1P_A
2828
36-2
(NC
)
1
2GND
VCC
CO
N1
GN
D10
uFC
6
GN
D
VD
D3.
3
D1
LE
D0
150Ω
R1
GN
D
VD
D3.
3
MP
Z16
08R
471A
L1
Indu
ctor
10uF
C1
GN
D
VD
D1.
8
MP
Z16
08R
471A
L2
Indu
ctor
10uF
C2
GN
D
VD
D3.
3
0.1u
FC
150.
1uF
C16
TX
0N_C
TX
0P_C
0.1u
FC
170.
1uF
C18
TX
1N_C
TX
1P_C
VD
L
INPUT1
GND2
OUTPUT3
GND4
IC1
uPC
291
8BT
GN
D
10uF
C7
10uF
C8
GN
D
VD
D1.
8V
DD
1.8
MP
Z16
08R
471A
L4
Indu
ctor
10uF
C4
GN
D
CA
VD
LV
DD
1.8
MP
Z1
608R
471A
L5
Indu
ctor
10uF
C5
GN
D
CP
VD
L
10kΩ
R3
10kΩ
R4
1kΩ(NC)
R5
1kΩ(NC)
R6
GN
D
U1
SS
M3K
16F
S
GN
D
51Ω
R2
D2
SM
L-3
10M
T
GN
D
GN
D
LA
GN
D1
LA
VD
H2
TL
A0-
3
TL
A0+
4
TL
B0-
5
TL
B0+
6
TL
C0-
7
TL
C0+
8
TL
CL
K0-
9
TL
CL
K0+
10
TL
D0-
11
TL
D0+
12
TL
E0-
13
TL
E0+
14
TL
F0-
15
TL
F0+
16
TL
A1-
17
TL
A1+
18
TL
B1-
19
TL
B1+
20
TL
C1-
21
TL
C1+
22
TL
CL
K1-
23
TL
CL
K1+
24
TL
D1-
25
TL
D1+
26
TL
E1-
27
TL
E1+
28
TL
F1-
29
TL
F1+
30
LA
VD
H31
LA
GN
D32
LP
VD
L64
LP
GN
D63
SD
SE
L62
CO
L1
61
CO
L0
60
RD
Y59
PD
N58
HT
PD
N57
LO
CK
N56
VD
L55
GN
D54
CA
VD
L53
CA
GN
D52
TX
0n51
TX
0p50
CA
GN
D49
TX
1n48
TX
1p47
CA
GN
D46
CA
VD
L45
CP
GN
D44
CP
VD
L43
DR
V1
42
DR
V0
41
PR
E1
40
PR
E0
39
Res
erve
d038
Res
erve
d137
GN
D36
VD
L35
LP
GN
D34
LP
VD
L33
IC2
TH
CV
215
5227
1-30
69(N
C)
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
CO
N2
GN
D
TL
D1N
TL
D1P
TL
E1N
TL
E1P
TL
A1N
TL
A1P
TL
CL
K1P
TL
B1N
TL
B1P
TL
C1N
TL
C1P
TL
CL
K1N
TL
E0N
TL
E0P
TL
C0N
TL
C0P
TL
CL
K0N
TL
CL
K0P
TL
D0N
TL
D0P
TL
A0N
TL
A0P
TL
B0N
TL
B0P
TL
D1N
TL
D1P
TL
E1N
TL
E1P
TL
A1N
TL
A1P
TL
CL
K1P
TL
B1N
TL
B1P
TL
C1N
TL
C1P
TL
CL
K1N
TL
E0N
TL
E0P
TL
C0N
TL
C0P
TL
CL
K0N
TL
CL
K0P
TL
D0N
TL
D0P
TL
A0P
TL
B0N
TL
B0P
TL
A0N
0.01
uFC
12
LA
VD
H
GN
D
0.01
uFC
22
TL
F0N
TL
F0P
TL
F1N
TL
F1P
RE
S1
RE
S0
PR
E0
PR
E1
DR
V0
DR
V1
TX
1PT
X1N
TX
0PT
X0N
HT
PD
N
PD
NR
DY
CO
L0
CO
L1
SD
SE
L
0.0
1uF
C11
0.0
1uF
C13
0.0
1uF
C14
0.0
1uF
C19
0.0
1uF
C20
0.0
1uF
C21
0.0
1uF
C23
LP
VD
L
VD
L
CA
VD
L
CP
VD
L
4.7
uFC
10
4.7
uFC
9
HT
PD
NL
OC
KN
VD
LV
DL
LA
VD
HV
DD
1.8
MP
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08R
471A
L3
Indu
ctor
10uF
C3
GN
D
LP
VD
L
0Ω(NC)
R27
GN
D
VD
D1.
8
0Ω(NC)
R28
0Ω(NC)
R29
0Ω(NC)
R38
0ΩR30
DR
V0
DR
V1
RE
S0
PR
E0
0ΩR35
0ΩR36
0ΩR37
EN
11
EN
22
EN
33
VC
C4
GN
D5
A6
NC
7
EN
48
4Z9
4Y10
3Z11
3Y12
2Z13
2Y14
1Z15
1Y16
IC3
SN
65L
VD
S10
5D(N
C)
1
2
SM
A10
3-T
16(N
C)
SM
A3
0Ω(NC)
R22
GN
D
10kΩ
(NC)
R18
10kΩ
(NC)
R16
10kΩ
(NC)
R14
10kΩ
(NC)
R24
VD
D3.
3
GN
D
TL
CL
K1P
TL
CL
K1N
TL
CL
K0N
TL
CL
K0P
0Ω(NC)
R15
0Ω(NC)
R17
0Ω(NC)
R19
0Ω(NC)
R20
LV
TT
Lto
LV
DS
Con
vert
for
BE
TM
OD
E
RD
Y
TX
0N_A
TX
0P_A
TX
1N_A
TX
1P_A
TP
1
TP
3
TP
2
TP
5
TP
4
Bo
ttom
Sid
e
0Ω(NC)
R13
0Ω(NC)
R21
0Ω(NC)
R32
0Ω(NC)
R39
1
2
SM
A10
3-T
16(N
C)
SM
A2
1
2
SM
A10
3-T
16(N
C)
SM
A4
1
2
SM
A10
3-T
16(N
C)
SM
A5
GN
D
4.7
uFC
24
Bo
ttom
Sid
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Sol
der
Jum
per
W1
Sol
der
Jum
per
W2
Sol
der
Jum
per
W3
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Figure 15 THEVA216-V2 Schematic
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0
11
1
2
3
3HE
AD
(NC
)
Hea
der1
1
2
3
3HE
AD
(NC
)
Hea
der2
1
2
3
3HE
AD
(NC
)
Hea
der6
1
2
3
3HE
AD
(NC
)
Hea
der3
1
2
3
3HE
AD
(NC
)
Hea
der4
1
2
3
3HE
AD
(NC
)
Hea
der5
GN
D
SD
SE
LR
ES
3C
OL
1C
OL
0R
SP
DN
GN
D
0ΩR
12H
TP
DN
_CL
OC
KN
_C
GN
D
5227
1-14
69(N
C)
1 2 3 4 5 6 7 8 9 10 11 12 13 14
CO
N3
0ΩR
13
0ΩR
140Ω
R15
VD
D3.
3
VD
D1.
8
GN
D
VD
D3.
3
1 2 3 4 5 6 7 8 9 10 11 12
CN
-FF
C(0
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2PD
(NC
)
CO
N4
1
2
SM
A10
3-T
16(N
C)
SM
A1 1
2
SM
A10
3-T
16(N
C)
SM
A2
0ΩR
160Ω
R17
0Ω(NC)
R25
HT
PD
N_A
LO
CK
N_A
RX
0N_A
RX
0P_A
0Ω(NC)
R26
0Ω(NC)
R27
0Ω(NC)
R29
RX
1N_A
RX
1P_A
0Ω(NC)
R30
0Ω(NC)
R31
1
2
SM
A10
3-T
16(N
C)
SM
A3 1
2
SM
A10
3-T
16(N
C)
SM
A4
2828
36-2
(NC
)
1
2GND
VCC
CO
N1
GN
D10
uFC
7
GN
D
VD
D3.
3 SM
L-3
10M
TD
1
150Ω
R1
GN
D
VD
D3.
3
MP
Z16
08R
471A
L1
Indu
ctor
10uF
C1
GN
D
VD
D1.
8
MP
Z16
08R
471A
L3
Indu
ctor
10uF
C3
GN
D
0.1u
FC
180.
1uF
C19
RX
0N_C
RX
0P_C
0.1
uFC
200.
1uF
C21
RX
1N_C
RX
1P_C
VD
L
INPUT1
GND2
OUTPUT3
GND4
IC1
uPC
2918
BT
GN
D
10uF
C8
10uF
C9
GN
D
VD
D1.
8V
DD
1.8
MP
Z16
08R
471A
L5
Indu
ctor
10uF
C5
GN
D
CP
VD
L0
VD
D1.
8
MP
Z1
608R
471A
L6
Indu
ctor
10uF
C6
GN
D
CP
VD
L1
1kΩ(NC)
R11
GN
D
5227
1-30
69(N
C)
123456789101112131415161718192021222324252627282930C
ON
2
RX
1PR
X1N
RX
0PR
X0N
0.01
uFC
13
0.01
uFC
15
0.01
uFC
16
0.01
uFC
17
LP
VD
H
VD
L
CA
VD
L
CP
VD
L0
4.7u
FC
10
LA
VD
HV
DD
1.8
MP
Z16
08R
471A
L4
Indu
ctor
10uF
C4
GN
D
CA
VD
L
GN
D
VD
D1.
8
0Ω(NC)
R20
0Ω(NC)
R21
RE
S2
RE
S1
0ΩR23
0ΩR24
LP
VD
H1
LP
GN
D2
SD
SE
L3
CO
L1
4
CO
L0
5
HT
PD
N6
LO
CK
N7
VD
L8
GN
D9
CP
VD
L0
10
CP
GN
D0
11
CA
VD
L12
CA
GN
D13
RX
0n
14
RX
0p
15
CA
GN
D16
CA
GN
D17
RX
1n
18
RX
1p
19
CA
GN
D20
CA
VD
L21
CP
GN
D1
22
CP
VD
L1
23
GN
D24
VD
L25
Res
erve
d126
PD
N27
Res
erve
d228
Res
erve
d329
RS
30
LP
GN
D31
LP
VD
H32
LA
GN
D64
LA
VD
H63
RL
A0-
62
RL
A0+
61
RL
B0-
60
RL
B0+
59
RL
C0-
58
RL
C0+
57
RL
CL
K0-
56
RL
CL
K0+
55
RL
D0-
54
RL
D0+
53
RL
E0-
52
RL
E0+
51
RL
F0-
50
RL
F0+
49
RL
A1-
48
RL
A1+
47
RL
B1-
46
RL
B1+
45
RL
C1-
44
RL
C1+
43
RL
CL
K1-
42
RL
CL
K1+
41
RL
D1-
40
RL
D1+
39
RL
E1-
38
RL
E1+
37
RL
F1-
36
RL
F1+
35
LA
VD
H34
LA
GN
D33
IC2
TH
CV
216
RE
S1
RE
S2
HT
PD
N
CO
L1
RS
PD
N
RE
S3
LO
CK
N
CO
L0
SD
SE
L
RL
CL
K0P
RL
D0P
RL
E0P
RL
F0
P
RL
A1P
RL
B1P
RL
C1P
RL
CL
K1P
RL
D1P
RL
E1P
RL
C0P
RL
B0P
RL
A0P
RL
F1
P
RL
D0N
RL
E0N
RL
F0
N
RL
A1N
RL
B1N
RL
C1N
RL
CL
K1N
RL
D1N
RL
E1N
RL
F1
N
RL
CL
K0N
RL
C0N
RL
B0N
RL
A0N
0.01
uFC
22
0.01
uFC
23
0.01
uFC
24
0.01
uFC
26
CP
VD
L1
4.7u
FC
11
4.7u
FC
12
0.0
1uF
C14
0.0
1uF
C25
GN
D
LA
VD
H
RL
CL
K0P
RL
D0P
RL
C0P
RL
B0P
RL
A0P
RL
D0N
RL
E0N
RL
CL
K0N
RL
C0N
RL
B0N
RL
A0N
RL
A1P
RL
B1P
RL
C1P
RL
CL
K1P
RL
D1P
RL
E1P
RL
A1N
RL
B1N
RL
C1N
RL
CL
K1N
RL
D1N
RL
E1N
VD
D3.
3
GN
D
RX
0N
_CR
X0
P_C
RX
1N
_CR
X1P
_C
GN
D
RX
0N
_A
RX
0P
_A
RX
1N
_A
RX
1P
_A
HT
PD
N_C
LO
CK
N_C
RX
0N_C
RX
0P_C
RX
1N_C
RX
1P_C
VD
D3.
3
MP
Z16
08R
471A
L2
Indu
ctor
10uF
C2
GN
D
LP
VD
H
RL
E0P
TP
3
TP
4
TP
1
TP
2
Bo
ttom
Sid
e
0Ω(NC)
R19
0Ω(NC)
R22
0Ω(NC)
R28
0Ω(NC)
R32
0ΩR
2
0ΩR
6
HT
PD
N
LO
CK
N
HT
PD
N_C
LO
CK
N_C
4.7u
FC
27
Sol
der
Jum
per
W2
Sol
der
Jum
per
W1
Bot
tom
Sid
e
GN
D
VD
D3.
3
THEVA215-V2_216-V2_UsersGuide_Rev1.20_E
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12. Bills of Materials
Table 9 THEVA215-V2 BOM
Table 10 THEVA216-V2 BOM
TYPE Value / Part No. Package SPEC Reference No. Q'ty Note
Capacitor 10uF 2012 16V C1, C2, C3, C4, C5, C6, C7, C8 8
Capacitor 4.7uF 1005 16V C9, C10, C24 3
Capacitor 0.01uF 1005 16V C11, C12, C13, C14, C19, C20, C21, C22, C23 9
Capacitor 0.1uF 1005 16V C15, C16, C17, C18 4
Connector 282836-2(NC) 5mm_pitch 2pin CON1 1
Connector 52271-3069(NC) 1mm_pitch 30pin CON2 1
Connector 52271-1469(NC) 1mm_pitch 14pin CON3 1
Connector CN-FFC(0.5)12PD(NC) 0.5mm_pitch 12pin CON4 1
Connector SMA103-T16(NC) 1.6mm PCB End Jack SMA1, SMA2, SMA3, SMA4, SMA5 5
Header 3HEAD(NC) 2.54mm_pitch --- Header1, Header2, Header3, Header4, Header5, Header6 6
IC uPC2918BT SC-63 1A IC1 1
IC THCV215 TSSOP64 --- IC2 1
IC SN65LVDS105D(NC) TSSOP 4V IC3 1
IC SSM3K16FS SSM RON15Ω U1 1
Inductor MPZ1608R471A 1608 1.2A L1, L2, L3, L4, L5 5
LED0 SML-310MT 1608 GREEN D1,D2 1
Resistor 51Ω 1005 0.1W R2 1
Resistor 150Ω 1005 0.1W R1 1
Resistor 10kΩ 1005 0.1W R3, R4 3
Resistor 1kΩ(NC) 1005 0.1W R5, R6 2
Resistor 0Ω 1005 1A R7, R8, R9, R10, R11, R12, R30, R35, R36, R37 10
Resistor 0Ω(NC) 1005 1AR13, R15, R17, R19, R20, R21, R22, R23, R25, R26, R27, R28,
R29, R31, R32, R33, R34, R38, R3919
Resistor 10kΩ(NC) 1005 0.1W R14, R16, R18, R24 4
TYPE Value / Part No. Package SPEC Reference No. Q'ty Note
Capacitor 10uF 2012 16V C1, C2, C3, C4, C5, C6, C7, C8, C9 9
Capacitor 4.7uF 1005 16V C10, C11, C12, C27 4
Capacitor 0.01uF 1005 16V C13, C14, C15, C16, C17, C22, C23, C24, C25, C26 10
Capacitor 0.1uF 1005 16V C18, C19, C20, C21 4
Connector 282836-2(NC) 5mm_pitch 2pin CON1 1
Connector 52271-3069(NC) 1mm_pitch 30pin CON2 1
Connector 52271-1469(NC) 1mm_pitch 14pin CON3 1
Connector CN-FFC(0.5)12PD(NC) 0.5mm_pitch 12pin CON4 1
Connector SMA103-T16(NC) 1.6mm PCB End Jack SMA1, SMA2, SMA3, SMA4 4
Header 3HEAD(NC) 2.54mm_pitch --- Header1, Header2, Header3, Header4, Header5, Header6 6
IC uPC2918BT SC-63 1A IC1 1
IC THCV216 TSSOP64 --- IC2 1
IC SSM3K16FS SSM RON15Ω U1, U2, U3, U4 4
Inductor MPZ1608R471A 1608 1.2A L1, L2, L3, L4, L5, L6 6
LED0 SML-310MT 1608 GREEN D1 1
Resistor 150Ω 1005 0.1W R1 1
Resistor 0Ω 1005 1A R2, R6, R12, R13, R14, R15, R16, R17, R23,R24, R25 10
Resistor 10kΩ(NC) 1005 0.1W R3, R4, R9, R10 4
Resistor 0Ω(NC) 1005 1AR5, R7, R8, R18, R19, R20, R21, R22, R26, R27, R28, R29, R30,
R31, R3216
Resistor 1kΩ(NC) 1005 0.1W R11 1
THEVA215-V2_216-V2_UsersGuide_Rev1.20_E
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13. Set Items
Table 11 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.
THEVA215-V2_216-V2_UsersGuide_Rev1.20_E
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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