THine THEVA1027D-V1 User guide

Type
User guide

THine THEVA1027D-V1 is a dual-link LVDS evaluation board designed for evaluating THC63LVD1027D, a low-power single 3.3V CMOS chipset capable of transmitting 35-bit data. With a maximum input clock frequency of 150MHz, this board offers wide dot clock range, making it suitable for Flat Panel Displays up to WUXGA resolution. Its features include power down mode, single/dual LVDS input and output, and distribution signal duplication mode. The board also supports reduced swing LVDS for lower EMI and comes in a 64-pin TSSOP package with an exposed pad.

THine THEVA1027D-V1 is a dual-link LVDS evaluation board designed for evaluating THC63LVD1027D, a low-power single 3.3V CMOS chipset capable of transmitting 35-bit data. With a maximum input clock frequency of 150MHz, this board offers wide dot clock range, making it suitable for Flat Panel Displays up to WUXGA resolution. Its features include power down mode, single/dual LVDS input and output, and distribution signal duplication mode. The board also supports reduced swing LVDS for lower EMI and comes in a 64-pin TSSOP package with an exposed pad.

THEVA1027D-V1_User's Guide_Rev.1.00_E
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Copyright(C) 2016 THine Electronics, Inc. THine Electronics, Inc.
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THC63LVD1027D Evaluation Kit
LVDS Dual Link Evaluation Board
Parts Number: THEVA1027D-V1
1. General Description
THEVA1027D-V1 is designed to evaluate THC63LVD1027D for transmission video data.
THC63LVD1027D chipset can transmit 35bit data via dual channel LVDS.
The maximum input clock frequency of THC63LVD1027D is 150MHz.
2. Features
THC63LVD1027D
Low power single 3.3V CMOS design
Power down mode
Wide dot clock range suited for Flat Panel Display up to WUXGA resolution
PLL requires no external components
Single/Dual LVDS (Open-LDI) in, Single/Dual LVDS (Open-LDI) out
Distribution signal duplication mode
Support Reduced Swing LVDS for Lower EMI
64 Pin TSSOP with Exposed PAD (0.5mm lead pitch)
3. Overview
Figure 1 THEVA1027D-V1
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4. Power Supply Setup
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.
Figure 2 THEVA1027D-V1 power supply for evaluation board
Power Supply from / to Connector
3.3V power supply can be connected to CON103 and CON102 by using W101 and W102 solder jumper.
THEVA1027D-V1
W101: Connect the 3.3V power supply with pin#1 and 2 of CON103.
W102: Connect the 3.3V power supply with pin#29 and 30 of CON102.
Figure 3 THEVA1027D-V1 power supply from / to each connector
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5. Function Setting
Setting pin of each board is shown in yellow area of Figure 4.
Figure 4 THEVA1027D-V1 position of function setting pin
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.
(a)3HEADER Description (b)High Level Setting (c)Low Level Setting
Figure 5 Schematic diagram of High / Low setting description
6. Status Indicate LED
LED “D101” indicates 3.3V power supply status.
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7. Function
This chapter shows function setting of THEVA1027D-V1.
Table 1 THEVA1027D-V1 function setting description
Silk Symbol Function
PD PD Power down function setting
H : Normal Operation
L : Power Down Mode (All outputs are Hi-Z)
RS RS
LVDS swing mode.
RS LVDS Swing
H 350mV
L 200mV
MODE1 MODE1
Pixel data mode select
MODE1 MODE0 RCLK2+/- Function
L L Clock input Dual-in / Dual -out
L L Hi-Z Distribution
H L Hi-Z Single-in / Dual -out
L H Clock input Dual-in / Single-out
H H - Reserved
MODE0 MODE0
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8. Schematic
Figure 6 THEVA1027D-V1 Schematic
1
1
2
2
3
3
4
4
5
5
6
6
7
7
8
8
D D
C C
B B
A A
Title
Number RevisionSize
A3
Date: 2022/11/30 Sheet of
File: \\..\THC63LVD1027D-V1.SchDoc Drawn By:
THEVA1027D-V1
1.00
1 1
1
2
3
3HEAD(NC)
Header101
1
2
3
3HEAD(NC)
Header102
1
2
3
3HEAD(NC)
Header103
1
2
3
3HEAD(NC)
Header104
GND
PD RSMODE1 MODE0
VCC
RS
1
CAP
2
GND
3
VDD
4
RA1-
5
RA1+
6
RB1-
7
RB1+
8
RC1-
9
RC1+
10
RCLK1-
11
RCLK1+
12
RD1-
13
RD1+
14
RE1-
15
RE1+
16
RA2-
17
RA2+
18
RB2-
19
RB2+
20
RC2-
21
RC2+
22
RCLK2-
23
RCLK2+
24
RD2-
25
RD2+
26
RE2-
27
RE2+
28
VDD
29
GND
30
CAP
31
PD
32
GND 64
CAP 63
GND 62
VDD 61
TA1- 60
TA1+ 59
TB1- 58
TB1+ 57
TC1- 56
TC1+ 55
TCLK1- 54
TCLK1+ 53
TD1- 52
TD1+ 51
TE1- 50
TE1+ 49
TA2- 48
TA2+ 47
TB2- 46
TB2+ 45
TC2- 44
TC2+ 43
TCLK2- 42
TCLK2+ 41
TD2- 40
TD2+ 39
TE2- 38
TE2+ 37
VDD 36
GND 35
MODE1 34
MODE0 33
EXPGND
65
IC101 THC63LVD1027D
TA1-
TA1+
TB1-
TB1+
TC1-
TC1+
TCLK1-
TCLK1+
TD1-
TD1+
TE1-
TE1+
TA2-
TA2+
TB2-
TB2+
TC2-
TC2+
TCLK2-
TCLK2+
TD2-
TD2+
TE2-
TE2+
52271-3069(NC)
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 CON102
TD1+
TD1-
TCLK1+
TCLK1-
TC1+
TC1-
TB1+
TB1-
TA1+
TA1-
VDD3.3
GND
TD2+
TD2-
TCLK2+
TCLK2-
TC2+
TC2-
TB2+
TB2-
TA2+
TA2-
TE1-
TE1+
TE2-
TE2+
Solder Jumper
W102
52271-3069(NC)
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
CON103
RD1+
RD1-
RCLK1+
RCLK1-
RC1+
RC1-
RB1+
RB1-
RA1+
RA1-
RD2+
RD2-
RC2+
RC2-
RB2+
RB2-
RA2+
RA2-
RE1-
RE1+
RE2-
RE2+
RA1-
100Ω
R102
100Ω
R103
100Ω
R104
100Ω
R105
100Ω
R106
100Ω
R107
100Ω
R108
100Ω
R109
100Ω
R110
100Ω
R112
100Ω
R113
VDD3.3
GND
Solder Jumper
W101
半田ジャンパーパッドをレイア
ウト
RCLK2+
RCLK2-
100Ω
R111
282836-2(NC)
1
2GND
VCC
CON101
GND 10uF
C102
GND
VDD3.3
SML-310MT
D101
150Ω
R101
GND
VDD3.3
470Ω@100MHz/0.20Ωmax./1.6x0.8mm/1A
L101
VCC
RS
0.1uF
C105
0.1uF
C110
0.1uF
C106
MODE1
MODE0
VCC
VCC
VCC
PD
RE2+
RE2-
RD2+
RCLK2-
RCLK2+
RD2-
RB2-
RB2+
RC2-
RC2+
RD1+
RE1-
RE1+
RA2-
RA2+
RB1+
RC1-
RC1+
RCLK1-
RCLK1+
RD1-
RA1-
RA1+
RB1-
VCC
GND
RA1+
RB1-
RB1+
RC1-
RC1+
RCLK1-
RE1-
RCLK1+
RD1+
RD1-
RE1+
RB2+
RB2-
RA2+
RA2-
RC2+
RC2-
RCLK2+
RCLK2-
RD2+
RD2-
RE2-
RE2+ GND GND
10uF
C101
GND
0.1uF
C107 0.1uFC108
0.1uFC109
CAP31
CAP2 CAP63
CAP63 0.01uF
C104
CAP2
0.01uF
C103
CAP31
0.01uF
C111
PIC10101
PIC10102
COC101
PIC10201
PIC10202
COC102
PIC10301
PIC10302
COC103
PIC10401
PIC10402
COC104
PIC10501
PIC10502
COC105
PIC10601
PIC10602
COC106
PIC10701
PIC10702
COC107
PIC10801
PIC10802
COC108
PIC10901
PIC10902
COC109
PIC11001
PIC11002
COC110
PIC11101
PIC11102
COC111
PICON10101
PICON10102
COCON101
PICON10201
PICON10202
PICON10203
PICON10204
PICON10205
PICON10206
PICON10207
PICON10208
PICON10209
PICON102010
PICON102011
PICON102012
PICON102013
PICON102014
PICON102015
PICON102016
PICON102017
PICON102018
PICON102019
PICON102020
PICON102021
PICON102022
PICON102023
PICON102024
PICON102025
PICON102026
PICON102027
PICON102028
PICON102029
PICON102030
COCON102
PICON10301
PICON10302
PICON10303
PICON10304
PICON10305
PICON10306
PICON10307
PICON10308
PICON10309
PICON103010
PICON103011
PICON103012
PICON103013
PICON103014
PICON103015
PICON103016
PICON103017
PICON103018
PICON103019
PICON103020
PICON103021
PICON103022
PICON103023
PICON103024
PICON103025
PICON103026
PICON103027
PICON103028
PICON103029
PICON103030
COCON103
PID10101
PID10102
COD101
PIHeader10101
PIHeader10102
PIHeader10103
COHeader101
PIHeader10201
PIHeader10202
PIHeader10203
COHeader102
PIHeader10301
PIHeader10302
PIHeader10303
COHeader103
PIHeader10401
PIHeader10402
PIHeader10403
COHeader104
PIIC10101
PIIC10102
PIIC10103
PIIC10104
PIIC10105
PIIC10106
PIIC10107
PIIC10108
PIIC10109
PIIC101010
PIIC101011
PIIC101012
PIIC101013
PIIC101014
PIIC101015
PIIC101016
PIIC101017
PIIC101018
PIIC101019
PIIC101020
PIIC101021
PIIC101022
PIIC101023
PIIC101024
PIIC101025
PIIC101026
PIIC101027
PIIC101028
PIIC101029
PIIC101030
PIIC101031
PIIC101032
PIIC101033
PIIC101034
PIIC101035
PIIC101036
PIIC101037
PIIC101038
PIIC101039
PIIC101040
PIIC101041
PIIC101042
PIIC101043
PIIC101044
PIIC101045
PIIC101046
PIIC101047
PIIC101048
PIIC101049
PIIC101050
PIIC101051
PIIC101052
PIIC101053
PIIC101054
PIIC101055
PIIC101056
PIIC101057
PIIC101058
PIIC101059
PIIC101060
PIIC101061
PIIC101062
PIIC101063
PIIC101064
PIIC101065
COIC101
PIL10101 PIL10102
COL101
PIR10101
PIR10102
COR101
PIR10201
PIR10202
COR102
PIR10301
PIR10302
COR103
PIR10401
PIR10402
COR104
PIR10501
PIR10502
COR105
PIR10601
PIR10602
COR106
PIR10701
PIR10702
COR107
PIR10801
PIR10802
COR108
PIR10901
PIR10902
COR109
PIR11001
PIR11002
COR110
PIR11101
PIR11102
COR111
PIR11201
PIR11202
COR112
PIR11301
PIR11302
COR113
PIW10101
PIW10102
COW101
PIW10201
PIW10202
COW102
PIC10301
PIC10501
PIIC10102
NLCAP2
PIC11001
PIC11101
PIIC101031
NLCAP31
PIC10402
PIC10602
PIIC101063
NLCAP63
PIC10101
PIC10201
PIC10302 PIC10401
PIC10502
PIC10601
PIC10702
PIC10801
PIC10902
PIC11002
PIC11102
PICON10102
PICON10201
PICON10202
PICON102027
PICON102028
PICON10303
PICON10304
PICON103029
PICON103030
PID10102
PIHeader10103
PIHeader10203 PIHeader10303 PIHeader10403
PIIC10103
PIIC101030
PIIC101035
PIIC101062
PIIC101064
PIIC101065
PIHeader10302
PIIC101033
NLMODE0
PIHeader10202
PIIC101034
NLMODE1
PICON102029
PICON102030
PIW10202
PICON10301
PICON10302
PIW10102
PID10101
PIR10101
PIHeader10102
PIIC101032
NLPD
PICON10306
PIIC10106
PIR10202
NLRA10
PICON10305
PIIC10105
PIR10201
NLRA10
PICON103018
PIIC101018
PIR10802
NLRA20
PICON103017
PIIC101017
PIR10801
NLRA20
PICON10308
PIIC10108
PIR10302
NLRB10
PICON10307
PIIC10107
PIR10301
NLRB10
PICON103020
PIIC101020
PIR10902
NLRB20
PICON103019
PIIC101019
PIR10901
NLRB20
PICON103010
PIIC101010
PIR10402
NLRC10
PICON10309
PIIC10109
PIR10401
NLRC10
PICON103022
PIIC101022
PIR11002
NLRC20
PICON103021
PIIC101021
PIR11001
NLRC20
PICON103012
PIIC101012
PIR10502
NLRCLK10
PICON103011
PIIC101011
PIR10501
NLRCLK10
PICON103024
PIIC101024
PIR11102
NLRCLK20
PICON103023
PIIC101023
PIR11101
NLRCLK20
PICON103014
PIIC101014
PIR10602
NLRD10
PICON103013
PIIC101013
PIR10601
NLRD10
PICON103026
PIIC101026
PIR11202
NLRD20
PICON103025
PIIC101025
PIR11201
NLRD20
PICON103016
PIIC101016
PIR10702
NLRE10
PICON103015
PIIC101015
PIR10701
NLRE10
PICON103028
PIIC101028
PIR11302
NLRE20
PICON103027
PIIC101027
PIR11301
NLRE20
PIHeader10402
PIIC10101
NLRS
PICON102025
PIIC101059
NLTA10
PICON102026
PIIC101060
NLTA10
PICON102013
PIIC101047
NLTA20
PICON102014
PIIC101048
NLTA20
PICON102023
PIIC101057
NLTB10
PICON102024
PIIC101058
NLTB10
PICON102011
PIIC101045
NLTB20
PICON102012
PIIC101046
NLTB20
PICON102021
PIIC101055
NLTC10
PICON102022
PIIC101056
NLTC10
PICON10209
PIIC101043
NLTC20
PICON102010
PIIC101044
NLTC20
PICON102019
PIIC101053
NLTCLK10
PICON102020
PIIC101054
NLTCLK10
PICON10207
PIIC101041
NLTCLK20
PICON10208
PIIC101042
NLTCLK20
PICON102017
PIIC101051
NLTD10
PICON102018
PIIC101052
NLTD10
PICON10205
PIIC101039
NLTD20
PICON10206
PIIC101040
NLTD20
PICON102015
PIIC101049
NLTE10
PICON102016
PIIC101050
NLTE10
PICON10203
PIIC101037
NLTE20
PICON10204
PIIC101038
NLTE20
PIC10102
PIC10701 PIC10802
PIC10901
PIHeader10101
PIHeader10201 PIHeader10301 PIHeader10401
PIIC10104
PIIC101029
PIIC101036
PIIC101061
PIL10102
NLVCC
PIC10202
PICON10101
PIL10101
PIR10102
PIW10101
PIW10201
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9. Bills of Materials
Table 2 THEVA1027D-V1 BOM
10.Set Items
Table 3 THEVA1027D-V1 Set Items
TYPE Part No.
DC Connector 282836-2
FFC Connector for LVDS Link 52271-3069
FFC 30pin 1mm Pitch for LVDS Link 98267-0475
It’s possible to mount these parts on this board and use.
Comment Description Value Designator Quantity LibRef Footprint
Capacitor2012 2012 10uF C101, C102 2 Cap
Capacitor 1005 0.01uF C103, C104, C111 3 Cap
Capacitor 1005 0.1uF C105, C106, C107, C108, C109, C110 6 Cap
282836-2 282836-2 282836-2(NC) CON101 1 PCON
CN-FFC(1.0)30PD CN-FFC(1.0)30PD 52271-3069(NC) CON102, CON103 2 CN-FFC(1.0)30PD
LED0 1608 SML-310MT D101 1 LED0 LED-0
3HEAD 3HEAD 3HEAD(NC) Header101, Header102, Header103, Header104 4 3HEAD
THC63LVD1027D TSSOP64 IC101 1 THC63LVD1027D
Inductor 1608 470Ω@100MHz/0.20Ωmax./1.6x0.8mm/1A L101 1 Inductor 0402-A
Resistor Resistor 150ΩR101 1 Res1 AXIAL-0.3
Resistor Resistor 100ΩR102, R103, R104, R105, R106, R107, R108, R109, R110, R111, R112, R113 12 Res1 AXIAL-0.3
Jumper Jumper Wire Solder Jumper W101, W102 2 Jumper RAD-0.2
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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.
https://www.thine.co.jp/
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THine THEVA1027D-V1 User guide

Type
User guide

THine THEVA1027D-V1 is a dual-link LVDS evaluation board designed for evaluating THC63LVD1027D, a low-power single 3.3V CMOS chipset capable of transmitting 35-bit data. With a maximum input clock frequency of 150MHz, this board offers wide dot clock range, making it suitable for Flat Panel Displays up to WUXGA resolution. Its features include power down mode, single/dual LVDS input and output, and distribution signal duplication mode. The board also supports reduced swing LVDS for lower EMI and comes in a 64-pin TSSOP package with an exposed pad.

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