THC63LVD1023B_Rev.3.1_E
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THC63LVD1023B
160MHz 67Bits LVDS Transmitter
General Description
The THC63LVD1023B transmitter is designed to suport
Single Link transmission between Host and Flat Panel
Display up to 1080p(60Hz) resol utions and Dual Link
transmission between Ho st and Flat Panel Display up to
1080p(120Hz).
The THC63LVD1023B converts 67bits of CMOS/TTL
data into LVDS ( Low Voltage Differential Si gnaling)
data stream. The transmitter can be programmed for ris-
ing edge or falling edge clocks throug h a dedicated pin,
and support double edge inputs.
In Dual Link, the t ransmit clock freq uency of 160MHz,
67bits of RGB data are transmitted at an effective rate
of 1.12Gbps per LVDS channel.
In Asynchronous mode, the THC63LVD1023B has 2
independent 35Bits Transmitter.
Features
Wide dot clock range suited for TV Signal (480i-
1080p), PC Signal (VGA-QXGA)
TTL/CMOS Input: 10-160MHz
LVDS Output: 20-160MHz
PLL requires No external components
Flexible Input/Output mod e
1. Single/Dual TTL IN, Single/Dual LVDS OUT
2. Double edge input for Single TTL IN/Dual LVDS OUT
3. Input port SW for Single TTL IN/Dual LVDS OUT
4. Asynchronous Dual TTL IN/Dual LVDS OUT
Clock edge selectable
3 LVDS data mapping for simplifying PCB layout.
Pseudo Random pattern generation circuit
Supports Reduced swing LVDS for Low EMI
Power down mode
Low power single 3.3V CMOS design
Backward compatible with THC63LVD1023
144pin LQFP
Block Diagram
PARALLEL TO SERIAL
PLL
TA1 +/-
TB1 +/-
TC1 +/-
TD1 +/-
TCLK1 +/-
/PDWN
(20 to 160MHz)
TRANSMITTER CLOCK IN
(10 to 1 6 0 MHz)
R1[9:0]
LVDS OUTPUT
TE1 +/-
32
DATA Port1
PARALLEL TO SERIAL
TA2 +/-
TB2 +/-
TC2 +/-
TD2 +/-
TE2 +/-
TCLK2 +/-
Port1
LVDS OUTPUT
Port2
G1[9:0]
B1[9:0]
CONT1[2:1]
Hsync1
35
Data Formatter
35
R/F
1) DEMUX
2) MUX
3) Distribution
Vsync1
DE1
MAP
R2[9:0]
32
DATA Port2 G2[9:0]
B2[9:0]
CONT2[2:1]
6
RS
MODE[3:0]
PRBS
4) DDR
CLKIN1
CLKIN2
MUX
Hsync2
Vsync2
DE2
5) Input Port SW
6) Crosspoint
ASYNC
THC63LVD1023B _Rev.3.1_E
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Pin Out (top view)
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
33
34
35
36
72
71
70
69
68
67
66
65
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
108
107
106
105
104
103
102
101
100
99
98
97
96
95
94
93
92
91
90
89
88
87
86
85
84
83
82
81
80
79
78
77
76
75
74
73
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
B27/TD21
VCC
B28/TD22
B29/TD23
HSYNC2/TE20
VSYNC2/TE21
DE2/TE22
VCC
GND
CLKIN1
CLKIN2
CONT11/TE23
CONT12/TE24
CONT21/TE25
CONT22/TE26
R/F
RS
MODE3
MODE1
MODE0
MODE2
ASYNC
/PDWN
PRBS
Reserved
PGND
PVCC
PGND
LGND
TE2+
TE2-
TD2+
TD2-
LGND
TCLK2-
TC2+
TC2-
LGND
LVCC
TB2+
TB2-
TA2+
TA2-
LGND
LGND
LGND
LGND
B16/TD15
B15/TD14
B14/TD13
GND
VCC
B13/TD12
B12/TD11
B11/TD10
B10/TC16
G19/TC15
G18/TC14
G17/TC13
G16/TC12
G15/TC11
GND
VCC
G14/TC10
G13/TB16
G12/TB15
G11/TB14
G10/TB13
R19/TB12
R18/TB11
R17/TB10
R16/TA16
GND
VCC
R15/TA15
R14/TA14
R13/TA13
R12/TA12
R10/TA10
PGND
PVCC
PGND
N/C
B17/TD16
B18/TE10
B19/TE11
VCC
GND
R20/TE12
R21/TE13
R22/TE14
R23/TE15
R24/TE16
R25/TA20
R26/TA21
R27/TA22
R28/TA23
R29/TA24
VCC
GND
G20/TA25
G21/TA26
G22/TB20
G23/TB21
G24/TB22
G25/TB23
G26/TB24
G27/TB25
G28/TB26
G29/TC20
VCC
GND
B20/TC21
B21/TC22
B22/TC23
B23/TC24
B24/TC25
B25/TC26
TCLK2+
TE1+
TE1-
TD1+
TD1-
TC1+
TC1-
TCLK1+
TCLK1-
TB1+
TB1-
TA1-
TA1+
LVCC
LVCC
LVCC
LVCC
R11/TA11
B26/TD20
GND
DE1/TD26
VSYNC1/TD25
HSYNC1/TD24
N/C
MAP
N/C
THC63LVD1023B _Rev.3.1_E
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Pin Description
Pin Name
Pin # Type DescriptionASYNC=L ASYNC=H
TA1+, TA1- 70, 71
LVDS
OUT
The 1st Link.
The 1st pixel output data when Dual-Link.
TB1+, TB1- 68, 69
TC1+, TC1- 64, 65
TD1+, TD1- 58, 59
TE1+, TE1- 56, 57
TCLK1+, TCLK1- 62, 63 LVDS Clock Out for 1st and 2nd Link.
TA2+, TA2- 52, 53
The 2nd Link.
These pins are disabled when Single Link.
TB2+, TB2- 50, 51
TC2+, TC2- 46, 47
TD2+, TD2- 40, 41
TE2+, TE2- 38, 39
TCLK2+, TCLK2- 44, 45
See following table.
Case1: LVDS Clock out for 2nd link.
Case2: LVDS Clock out for 1st link.
Case3: Additional LVDS Clock out.
Identical to TCLK1+/-
Case4: Not available (High-Impedance)
R19 ~ R10 TB12~TB10,
TA16~TA10 87 - 84,
81 - 76
IN
ASYNC=L
The 1st Pixel Data Inputs.
ASYNC=H
Data Input s.
G19 ~ G10 TC15~TC10,
TB16~TB13 99 - 95,
92 - 88
B19 ~ B10 TE11~TE10,
TD16~TD10,
TC16
112 -110,
108 -106,
103 - 100
R29 ~ R20 TA24~TA20,
TE16~TE12 124 - 115
IN
ASYNC=L
The 2nd Pixel Data Inputs.
ASYNC=H
Data Input s.
G29 ~ G20 TC20,
TB26~TB20,
TA26~TA25 136 - 127
B29 ~ B20 TD23~TD20,
TC26~TC21 6, 5, 2, 1,
144 - 139
ASYNC MODE0 MODE1 MODE2 Description
HxxLCase1
HxxHCase2
LLxxCase3
LHLxCase4
LHHLCase4
LHHHCase3
THC63LVD1023B _Rev.3.1_E
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CONT11 *1,
CONT12 *1 TE23, T E24 17, 18
IN ASYNC=L: CONTROL Data Input s.
ASYNC=H: Data Inputs.
CONT21 *1,
CONT22 *1 TE25,TE26 19, 20
DE1,DE2 TD26,TE22 9,12 IN ASYNC=L: Data Enable Inputs.
ASYNC=H: Data Inputs.
VSYNC1,
VSYNC2 TD25,TE21 8,11 IN ASYNC=L: Vsync Inputs.
ASYNC=H: Data Inputs
HSYNC1,
HSYNC2 TD24,TE20 7,10 IN ASYNC=L: Hsync Inputs.
ASYNC=H: Data Inputs
CLKIN1 15 IN
Clock Input of following cases.
CLKIN2 16 IN
Clock Input of following cases.
R/F 21 IN Input Clock Triggering Edge Select.
H: Rising edge, L: Falling edge
RS 22 IN
LVDS swing mode, VREF select. See Fig4, 5.
MAP
(See Fig7 to 9 and
Table4 to10) 24 IN
LVDS mapping table select.
MODE1, MODE0 25, 26 IN
Pin Name
Pin # Type DescriptionASYNC=L ASYNC=H
ASYNC MODE1 MODE0 MODE3
Hx x x
LLxx
LHLH
LHHx
ASYNC MODE1 MODE0 MODE3
Hx x x
LHL L
RS LVDS
Swing Small Swing
Input Support
VIHM 350mV N/A
VIMM 350mV RS=VREFa
VILM 200mV N/A
a. VREF is Input Reference Voltage.
MAP Mapping Mode
VIHM Mapping MODE1
VILM Mapping MODE2
VIMM Mapping MODE3
Pixel Data Mode.
MODE1 MODE0 Mode
L L Dual Link (Dual-in/Dual-out)
H L Dual Link (Single-in/Dual-out)
L H Single Link (Dual-in/Single-out)
H H Single Link (Single-in/Single-out)
Pin Description (Continued)
*1: CONT## are DATA pins that user can use as data like RGB data.
THC63LVD1023B _Rev.3.1_E
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*2: Setting the PRBS pin high enables the internal test pattern generator. It generates Pseu do-Random Bit Sequence of
223-1. The generated PRBS is fed into input data latches, formatted as VGA video like data, encoded and serialized
into TXOUT output. This function is normally to be used for analyzing the signal integrity of the transmission
channel including PCB traces, connec tors, and cables.
MODE2
(See Fig.5) 27 IN
The use of these multi-function depends on the setting
of MODE<1:0> or ASYNC.
ASYNC=H(MODE<1:0>=Don’t care.)
H: Cross point switching enable.
L: Cross point switching disable.
ASYNC=L
MODE<1:0>=HH(Single-in/Single-out Mode)
H: Distribution function enable.
L: Distribution function disable.
MODE<1:0>=HL(Single-in/Dual-out Mode)
H: DDR (Double Edge input) function enable.
L: DDR (Double Edge input) function disable.
MODE3 23 IN
Input port switching function enable when
MODE<1:0>=HL(Single-in/Dual-out Mode).
H or Open: Port switch disable.
L: Port switch enable.
ASYNC 28 IN Asynchronous function enable.
H: Asynchronous mode enable.(MODE<1:0>=Disable)
L: Asynchronous mode disable.(MODE<1:0>=Enable)
/PDWN 30 IN H: Normal operation,
L: Power down (all outputs are Hi-Z)
PRBS *2 31 IN
PRBS (Pseudo-Random Binary Sequence) generator
is active in order to evaluate eye patterns when
MODE<1:0> = LL (Dual-in/Dual-out mode) or
ASYNC=H
H: PRBS generator is enable.
L: Normal Operation
Reserved 32 IN Must be tied to GND.
N/C 29, 33, 109 Must be Open.
VCC 3, 13, 82, 93,
104, 113,
125, 137 Power Power Supply Pins for TT L inputs and digital circuitry.
GND 4, 14, 83, 94,
105, 114,
126, 138 Ground Ground Pins for TTL inputs and digital circuitry.
LVCC 43, 49, 55,
61, 67 Power Power Supply Pins for LVDS Outp uts.
LGND 37, 42, 48,
54, 60, 66, 72 Ground Ground Pins for LVDS Outputs.
PVCC 35, 74 Power Power Supply Pins for PLL circuitry.
PGND 34, 36, 73, 75 Ground Ground Pins for PLL circuitry.
Pin Name
Pin # Type DescriptionASYNC=L ASYNC=H
THC63LVD1023B _Rev.3.1_E
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Absolute Maximum Ratings
Recommended Operating Conditions
Supply Voltage (VCC)-0.3V ~ +4.0V
CMOS/TTL Input Voltage -0.3V ~ (VCC + 0.3V)
LVDS Driver Output Voltage -0.3V ~ (VCC + 0.3V)
Output Current -30mA ~ 30mA
Junction Temperature +125
Storage Temperature Range -55 ~ +125
Reflow Peak Temperature / Time +260 / 10sec.
Maximum Power Dissipation @+25 2.4W
Parameter Min. Typ Max Units
All Supply Voltage 3.0 3.3 3.6 V
Operating Ambient Temperature -20 70
Clock
Frequency
MODE<1:0>=LL
Dual-in/Dual-out Input 20 160 MHz
LVDS Output 20 160 MHz
MODE<1:0>=LH
Dual-in/Single-out Input 10 80 MHz
LVDS Output 20 160 MHz
MODE<1:0>=HL
Single-in/Dual-out
Single Edge Input
(MODE2=L) Input 40 160 MHz
LVDS Output 20 80 MHz
Double Edge Input
(MODE2=H) Input 20 80 MHz
LVDS Output 20 80 MHz
MODE<1:0>=HH
Single-in/Single-out Input 20 160 MHz
LVDS Output 20 160 MHz
ASYNC=H
Asynchronous Mode Input 20 160 MHz
LVDS Output 20 160 MHz
°C
°C°C
°C
°C
°C
THC63LVD1023B_Rev.3.1_E
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Electrical Characteri stics
CMOS/TTL DC Specifications
VCC = VCC=PVCC=LVCC
LVDS Transmitter DC Specifications VCC = VCC=PVCC=LVCC
Symbol Parameter Conditions Min. Typ. Max. Units
VIHa
a. CLKIN1,R10~R19,G10~G19,B10~B19,DE1,HSYNC1,VSYNC1,CONT11,CONT12
CLKIN2,R20~R29,G20~G29,B20~B29,DE2,HSYNC2,VSYNC2,CONT21,CONT22
High Level Data Input Voltage RS=Vccor GND 2.0 VCC V
RS=0.6~1.4V VREFb+0.1
b. VREF is input voltage of RS pin.
V
VILaLow Level Data Input Voltage RS=Vccor GND GND 0.8 V
RS=0.6~1.4V VREF-0.1 V
VIHCc
c. R/F,MODE0,MODE1,MODE2,MODE3,PDWN,PRBS,ASYNC
High Level Control Input Voltage 2.0 VCC V
VILCcLow Level Control Input Voltage GND 0.8 V
VIHMdHigh Level Control Input Voltage 0.8VCC VCC V
VIMMd
d. RS,MAP
Middle Level Control Input Voltage 0.6 1.4 V
VILMdLow Level Control Input Voltage GND 0.08VCC V
IINC Input Current (except MODE3) μA
IINCM3 Input Current (Only MODE3) μA
Symbol Parameter Conditions Min. Typ. Max. Units
VOD Differential Output Voltage RL=100Ω
Normal swing
RS= Vcc 250 350 450 mV
Reduced swing
RS= GND 100 200 300 mV
ΔVOD Change in VOD between
complementary output states RL=100Ω
35 mV
VOC Common Mode Voltage 1.125 1.25 1.375 V
ΔVOC Change in VOC between
complementary output states 35 mV
IOS Output Short Circuit Current VOUT=GND, RL=100Ω-24 mA
IOZ Output TRI-State current /PDWN=GND,
VOUT=GND to VCC μA
GND VIN VCC
≤≤ 10±
GND VIN VC
C
≤≤ 20±
10±
THC63LVD1023B _Rev.3.1_E
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Electrical Characteristics (Continued)
Supply Current VCC = VCC=PVCC=LVCC
Symbol Parameter Condition Typ. Max. Units
ITCCW
T ransmitter Supply
Current
(Worst Case
Pattern) Fig1.
RL=100Ω
CL=5pF
RS=VCC
MODE<1:0>=HH
Single-in/Single-out
MODE2=L
Distribution Off
CLKIN1=65MHz 105 mA
CLKIN1=85MHz 121 mA
CLKIN1=135MHz 157 mA
CLKIN1=160MHz 179 mA
MODE<1:0>=HH
Single-in/Single-out
MODE2=H
Distribution On
CLKIN1=65MHz 146 mA
CLKIN1=85MHz 172 mA
CLKIN1=135MHz 217 mA
CLKIN1=160MHz 250 mA
MODE<1:0>=HL
Single-in/Dual-out
MODE2=L
MODE3=H or L
DDR Input Off
CLKIN1/2=65MHz 108 mA
CLKIN1/2=85MHz 136 mA
CLKIN1/2=135MHz 169 mA
CLKIN1/2=160MHz 194 mA
MODE<1:0>=HL
Single-in/Dual-out
MODE2=H
MODE3=H or L
DDR Input On
CLKIN1/2=32.5MHz 120 mA
CLKIN1/2=42.5MHz 140 mA
CLKIN1/2=67.5MHz 183 mA
CLKIN1/2=80MHz 199 mA
MODE<1:0>=LH
Dual-in/Single-out
CLKIN1=32.5MHz 95 mA
CLKIN1=42.5MHz 110 mA
CLKIN1=67.5MHz 143 mA
CLKIN1=80MHz 166 mA
MODE<1:0>=LL
Dual-in/Dual-out
CLKIN1=65MHz 167 mA
CLKIN1=85MHz 197 mA
CLKIN1=135MHz 261 mA
CLKIN1=160MHz 301 mA
ASYNC=H
Asynchronous
CLKIN1/2=65MHz 183 mA
CLKIN1/2=85MHz 214 mA
CLKIN1/2=135MHz 286 mA
CLKIN1=160MHz 329 mA
ITCCS
Transmitter Power
Down Supply
Current /PDWN = L, All Inputs = Fixed L or H 50 μA
Fig1. Test Pattern (LVDS Output Full Toggle Pattern)
Txy+
x= A, B, C, D, E
y=1,2
TCLK1+
THC63LVD1023B_Rev.3.1_E
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Switching Characteristics
VCC = VCC=PVCC=LVCC
Symbol Parameter Min. Typ. Max. Units
tTCIP CLK IN Period(Fig4,5) 6.25 100 ns
tTCH CLK IN High Time(Fig4,5) 0.35tTCIP 0.5tTCIP 0.65tTCIP ns
tTCL CLK IN Low Time(Fig4,5) 0.35tTCIP 0.5tTCIP 0.65tTCIP ns
tTS TTL Data Setup to CLK IN(Fig4,5) 2.5 ns
tTH TTL Data Hold from CKL IN(Fig4,5) 0.0 ns
tTCD
CLK IN to TCLK+/- Delay(Fig4,5)
MODE<1:0>=LL
Dual-in/Dual-out
(4+3/7)tTCIP
+2.6
(4+3/7)tTCIP
+7.5 ns
tTCOP CLK OUT Period(Fig6) 6.25 50 ns
tLVT LVDS Transition Time(Fig2) 0.6 1.5 ns
tTOP1 Output Data
Position0 (Fig6)
tTCOP =
6.25ns~20ns
-0.15 0.0 +0.15 ns
tTOP0 Output Data
Position1 (Fig6) ns
tTOP6 Output Data
Position2 (Fig6) ns
tTOP5 Output Data
Position3 (Fig6) ns
tTOP4 Output Data
Position4 (Fig6) ns
tTOP3 Output Data
Position5 (Fig6) ns
tTOP2 Output Data
Position6 (Fig6) ns
tTPLL PLL Lock time(Fig3) 10.0 ms
tDEINT
DE input period (Fig3-1)
Single-in / Dual-out, DDR Of f mode
only(MODE<2:0>=LHL) 4tTCIP tTCIP*(2n) a
a. Refer to Fig3-1 for details.
ns
tDEH
DE High time (Fig3-1)
Single-in / Dual-out, DDR Of f mode
only(MODE<2:0>=LHL) 2tTCIP tTCIP*(2m)ans
tDEL
DE Low time(Fig3-1)
Single-in / Dual-out, DDR Of f mode
only(MODE<2:0>=LHL) 2tTCIP ns
tTCOP
7
--------------- 0.15tTCOP
7
--------------- tTCOP
7
--------------- 0.15+
2tTCOP
7
--------------- 0.152tTCOP
7
--------------- 2tTCOP
7
--------------- 0.15+
3tTCOP
7
--------------- 0.153tTCOP
7
--------------- 3tTCOP
7
--------------- 0.15+
4tTCOP
7
--------------- 0.154tTCOP
7
--------------- 4tTCOP
7
--------------- 0.15+
5tTCOP
7
--------------- 0.155tTCOP
7
--------------- 5tTCOP
7
--------------- 0.15+
6tTCOP
7
--------------- 0.156tTCOP
7
--------------- 6tTCOP
7
--------------- 0.15+
THC63LVD1023B _Rev.3.1_E
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AC Timing Diagrams
2.0V
tTPLL
CLKINx
/PDWN
TCLKx+/-
Vdiff=0V
Fig3. PLL Lock Time
x=1,2
x=1,2
5pF 20%
80%
20%
80%
tLVT tLVT
Vdiff
100Ω
Vdiff=(TA+)-(TA-)
TA+
TA-
LVDS Output Load
Fig2. LVDS Ou tpu t Lo a d an d Transition Time
CLKIN
DE
tDEINT
tDEH tDEL
Note: In single-in/dual-out, DDR off mode (MODE<2:0>=LHL),
the period between rising edges of DE (tDEINT), high time of DE (tDEH)
tDEINT = tTCIP * (2n)
m, n =integer
tTCIP
Fig3-1. Single IN / Dual OUT, DDR off mode DE input timing
should always satisfy following equations.
tDEH = tTCIP * (2m)
THC63LVD1023B_Rev.3.1_E
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Fig4. CLKIN Period, High/Low Time, Setup/Hold Timing
tTCIP
tTS tTH
tTCH tTCL
CLKINx
t
TCD
VOC
VREF VREF
VREF VREF
VREF
Note:
CLKINx: for R/F=GND, denote as solid line,
for R/F=VCC, denote as dashed line.
RS pin VOD VREF
VIHM 350mV VCC/2
VIMM Input Voltage of RS pin
VILM 200mV VCC/2
GND
GND
x=1,2
Rxn, Gxn, Bxn
HSYNCx
VSYNCx
DEx
CONTx1
CONTx2
x=1,2 n=0- 9
Current Data
TCLKx+/-
x=1,2
Current Data
Txy+/-
x=1,2
y= A, B, C, D, E
x=1,2
VOD
VCC
VCC
Fig5. CLKIN Period, High/Low Time, Setup/Hold Timing for Double Edge Input Mode (DDR)
Note:
CLKINx: for R/F=GND, denote as solid line,
for R/F=VCC, denote as dashed line.
MODE<1:0>=HL, MODE2=H
x=1,2
Current Data
Txy+/-
x=1,2
y= A, B, C, D, E
VREF VREF
1st Pixel
Data 2nd Pixel
Data GND
VOD
VCC
VCC
RS pin VOD VREF
VIHM 350mV VCC/2
VIMM Input Voltage of RS pin
VILM 200mV VCC/2
GND
AC Timing Diagrams (Continued)
tTS tTH tTS tTH
tTCIP
tTCH tTCL
CLKINx
t
TCD
VOC
VREF VREF VREF
x=1,2
Rxn, Gxn, Bxn
HSYNCx
VSYNCx
DEx
CONTx1
CONTx2
x=1,2 n=0-9
TCLKx+/-
x=1,2
THC63LVD1023B_Rev.3.1_E
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AC Timing Diagrams (Continued)
Vdiff = 0V
Tyx+/- Tyx6 Tyx5 Tyx4 Tyx3 Tyx2 Tyx1 Tyx0 Tyx6 Tyx5 Tyx4 Tyx3 Tyx2 Tyx1
Vdiff = 0V
tTOP2
tTOP3
tTOP4
tTOP5
tTOP6
tTOP0
tTOP1
tTCOP
TCLKx+
x = 1,2
y = A,B,C,D,E Note:
Vdiff = (Tyx+) - (Tyx-), (TCLKx+) - (TCLKx-)
Fig6. LVDS Output Data Position
THC63LVD1023B_Rev.3.1_E
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Input Data Mapping
Table1. Input Color Data naming rule
Table2. TTL/CMOS Input Data Mapping (Single-in mode, MODE1=H)
X Y Z Description
X=R Red Color Data
X=G Green Color Data
X=B Blue Color Data
Y= None Single Pixel
Y=E Dual Pixel 1st Pixel Data
Y=O 2nd Pixel Data
Z=0-9 Bit number 0: LSB (Least Significant Bit)
9: MSB (Most Significant Bit)
Data Signals Transmitter Input Pin Names
30-bit 24-bit 18-bit 30-bit 24-bit 18-bit
R0 R10
R1 R11
R2 R0 R12 R12
R3 R1 R13 R13
R4 R2 R0 R14 R14 R14
R5 R3 R1 R15 R15 R15
R6 R4 R2 R16 R16 R16
R7 R5 R3 R17 R17 R17
R8 R6 R4 R18 R18 R18
R9 R7 R5 R19 R19 R19
G0 G10
G1 G11
G2 G0 G12 G12
G3 G1 G13 G13
G4 G2 G0 G14 G14 G14
G5 G3 G1 G15 G15 G15
G6 G4 G2 G16 G16 G16
G7 G5 G3 G17 G17 G17
G8 G6 G4 G18 G18 G18
G9 G7 G5 G19 G19 G19
B0 B10
B1 B11
B2 B0 B12 B12
B3 B1 B13 B13
B4 B2 B0 B14 B14 B12
B5 B3 B1 B15 B15 B13
B6 B4 B2 B16 B16 B14
B7 B5 B3 B17 B17 B15
B8 B6 B4 B18 B18 B16
B9 B7 B5 B19 B19 B17
THC63LVD1023B_Rev.3.1_E
Copyright©2015 THine Electronics, Inc. 14/26 THine Electronics, Inc.
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Input Data Mapping (Continued)
Table3. TTL/CMOS Input Data Mapping (Dual-in mode, MODE1=L)
Data Signals Transmitter Input Pin
Names Data Signals Transmitter Input Pin
Names
30-bit 24-bit 18-bit 30-bit 24-bit 18-bit 30-bit 24-bit 18-bit 30-bit 24-bit 18-bit
RE0 R10 RO0 R20
RE1 R11 RO1 R22
RE2 RE0 R12 R12 RO2 RO0 R22 R22
RE3 RE1 R13 R13 RO3 RO1 R23 R23
RE4 RE2 RE0 R14 R14 R14 RO4 RO2 RO0 R24 R24 R24
RE5 RE3 RE1 R15 R15 R15 RO5 RO3 RO1 R25 R25 R25
RE6 RE4 RE2 R16 R16 R16 RO6 RO4 RO2 R26 R26 R26
RE7 RE5 RE3 R17 R17 R17 RO7 RO5 RO3 R27 R27 R27
RE8 RE6 RE4 R18 R18 R18 RO8 RO6 RO4 R28 R28 R28
RE9 RE7 RE5 R19 R19 R19 RO9 RO7 RO5 R29 R29 R29
GE0 G10 GO0 G20
GE1 G11 GO1 G22
GE2 GE0 G12 G12 GO2 GO0 G22 G22
GE3 GE1 G13 G13 GO3 GO1 G23 G23
GE4 GE2 GE0 G14 G14 G14 GO4 GO2 GO0 G24 G24 G24
GE5 GE3 GE1 G15 G15 G15 GO5 GO3 GO1 G25 G25 G25
GE6 GE4 GE2 G16 G16 G16 GO6 GO4 GO2 G26 G26 G26
GE7 GE5 GE3 G17 G17 G17 GO7 GO5 GO3 G27 G27 G27
GE8 GE6 GE4 G18 G18 G18 GO8 GO6 GO4 G28 G28 G28
GE9 GE7 GE5 G19 G19 G19 GO9 GO7 GO5 G29 G29 G29
BE0 B10 BO0 B20
BE1 B11 BO1 B22
BE2 BE0 B12 B12 BO2 BO0 B22 B22
BE3 BE1 B13 B13 BO3 BO1 B23 B23
BE4 BE2 BE0 B14 B14 B14 BO4 BO2 BO0 B24 B24 B24
BE5 BE3 BE1 B15 B15 B15 BO5 BO3 BO1 B25 B25 B25
BE6 BE4 BE2 B16 B16 B16 BO6 BO4 BO2 B26 B26 B26
BE7 BE5 BE3 B17 B17 B17 BO7 BO5 BO3 B27 B27 B27
BE8 BE6 BE4 B18 B18 B18 BO8 BO6 BO4 B28 B28 B28
BE9 BE7 BE5 B19 B19 B19 BO9 BO7 BO5 B29 B29 B29
THC63LVD1023B_Rev.3.1_E
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LVDS Output Data Mapping
Tx1+/-
TCLK1+
Previous Cycle Current Cycle
Fig7. TTL Data Inputs Mapped to LVDS outputs
MODE0= H (Single-out Mode)
x= A, B, C, D, E
Tx11(n-1) Tx10(n-1) Tx16(n) Tx15(n) Tx14(n) Tx13(n) Tx12(n) Tx11(n) Tx10(n) Tx16(n+1)
(2nd Pixel Data) (1st Pixel Data) Next Cycle
(2nd Pixel Data)
Tx1+/-
TCLK1+
Previous Cycle Current Cycle
Fig8. TTL Data Inputs Mapped to LVDS outputs
MODE0= L (Dual-out Mode)
x= A, B, C, D, E
Tx11(n-1) Tx10(n-1) Tx16(n) Tx15(n) Tx14(n) Tx13(n) Tx12(n) Tx11(n) Tx10(n) Tx16(n+1)
Tx21(n-1) Tx20(n-1) Tx26(n) Tx25(n) Tx24(n) Tx23(n) Tx22(n) Tx21(n) Tx20(n) Tx26(n+1)
Tx2+/-
x= A, B, C, D, E
Next Cycle
THC63LVD1023B_Rev.3.1_E
Copyright©2015 THine Electronics, Inc. 16/26 THine Electronics, Inc.
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LVDS Output Data Mapping (Continued)
Table4. LVDS Output Data Mapping (Single-in/Single-out Distribution Off, MODE<1:0>=HH, MODE2=L)
LVDS
Output Data
Mapping Mode (Input Pin Name)
Mode1
MAP=VIHM
Mode2
MAP=VILM
Mode3
MAP=VIMM
TA10 R14 R12 R10
TA11 R15 R13 R11
TA12 R16 R14 R12
TA13 R17 R15 R13
TA14 R18 R16 R14
TA15 R19 R17 R15
TA16 G14 G12 G10
TB10 G15 G13 G11
TB11 G16 G14 G12
TB12 G17 G15 G13
TB13 G18 G16 G14
TB14 G19 G17 G15
TB15 B14 B12 B10
TB16 B15 B13 B11
TC10 B16 B14 B12
TC11 B17 B15 B13
TC12 B18 B16 B14
TC13 B19 B17 B15
TC14 HSYNC1 HSYNC1 HSYNC1
TC15 VSYNC1 VSYNC1 VSYNC1
TC16 DE1 DE1 DE1
TD10 R12 R18 R16
TD11 R13 R19 R17
TD12 G12 G18 G16
TD13 G13 G19 G17
TD14 B12 B18 B16
TD15 B13 B19 B17
TD16 CONT11 CONT11 CONT11
TE10 R10 R10 R18
TE11 R11 R11 R19
TE12 G10 G10 G18
TE13 G11 G11 G19
TE14 B10 B10 B18
TE15 B11 B11 B19
TE16 CONT12 CONT12 CONT12
THC63LVD1023B_Rev.3.1_E
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LVDS Output Data Mapping (Continued)
Table5. LVDS Output Data Mapping (Single-in/Single-out Distribution On, MODE<1:0>=HH, MODE2=H)
LVDS
Output Data
(1st Link)
Mapping Mode (Input Pin Name) LVDS
Output Data
(2nd Link)
Mapping Mode (Input Pin Name)
Mode1
MAP=VIHM
Mode2
MAP=VILM
Mode3
MAP=VIMM
Mode1
MAP=VIHM
Mode2
MAP=VILM
Mode3
MAP=VIMM
TA10 R14 R12 R10 TA20 R14 R12 R10
TA11 R15 R13 R11 TA21 R15 R13 R11
TA12 R16 R14 R12 TA22 R16 R14 R12
TA13 R17 R15 R13 TA23 R17 R15 R13
TA14 R18 R16 R14 TA24 R18 R16 R14
TA15 R19 R17 R15 TA25 R19 R17 R15
TA16 G14 G12 G10 TA26 G14 G12 G10
TB10 G15 G13 G11 TB20 G15 G13 G11
TB11 G16 G14 G12 TB21 G16 G14 G12
TB12 G17 G15 G13 TB22 G17 G15 G13
TB13 G18 G16 G14 TB23 G18 G16 G14
TB14 G19 G17 G15 TB24 G19 G17 G15
TB15 B14 B12 B10 TB25 B14 B12 B10
TB16 B15 B13 B11 TB26 B15 B13 B11
TC10 B16 B14 B12 TC20 B16 B14 B12
TC11 B17 B15 B13 TC21 B17 B15 B13
TC12 B18 B16 B14 TC22 B18 B16 B14
TC13 B19 B17 B15 TC23 B19 B17 B15
TC14 HSYNC1 HSYNC1 HSYNC1 TC24 HSYNC1 HSYNC1 HSYNC1
TC15 VSYNC1 VSYNC1 VSYNC1 TC25 VSYNC1 VSYNC1 VSYNC1
TC16 DE DE DE1 TC26 DE DE DE1
TD10 R12 R18 R16 TD20 R12 R18 R16
TD11 R13 R19 R17 TD21 R13 R19 R17
TD12 G12 G18 G16 TD22 G12 G18 G16
TD13 G13 G19 G17 TD23 G13 G19 G17
TD14 B12 B18 B16 TD24 B12 B18 B16
TD15 B13 B19 B17 TD25 B13 B19 B17
TD16 CONT11 CONT11 CONT11 TD26 CONT11 CONT11 CONT11
TE10 R10 R10 R18 TE20 R10 R10 R18
TE11 R11 R11 R19 TE21 R11 R11 R19
TE12 G10 G10 G18 TE22 G10 G10 G18
TE13 G11 G11 G19 TE23 G11 G11 G19
TE14 B10 B10 B18 TE24 B10 B10 B18
TE15 B11 B11 B19 TE25 B11 B11 B19
TE16 CONT12 CONT12 CONT12 TE26 CONT12 CONT12 CONT12
THC63LVD1023B_Rev.3.1_E
Copyright©2015 THine Electronics, Inc. 18/26 THine Electronics, Inc.
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LVDS Output Data Mapping (Continued)
Table6. LVDS Output Data Mapping
(Single-in/Dual-out, DDR On or Off, Port Switch Off, MODE<1:0>=HL, MODE2=H or L, MODE3=H or Open)
LVDS
Output Data
(1st Link)
Mapping Mode (Input Pin Name) LVDS
Output Data
(2nd Link)
Mapping Mode (Input Pin Name)
Mode1
MAP=VIHM
Mode2
MAP=VILM
Mode3
MAP=VIMM
Mode1
MAP=VIHM
Mode2
MAP=VILM
Mode3
MAP=VIMM
TA10 R14 R12 R10 TA20 R14 R12 R10
TA11 R15 R13 R11 TA21 R15 R13 R11
TA12 R16 R14 R12 TA22 R16 R14 R12
TA13 R17 R15 R13 TA23 R17 R15 R13
TA14 R18 R16 R14 TA24 R18 R16 R14
TA15 R19 R17 R15 TA25 R19 R17 R15
TA16 G14 G12 G10 TA26 G14 G12 G10
TB10 G15 G13 G11 TB20 G15 G13 G11
TB11 G16 G14 G12 TB21 G16 G14 G12
TB12 G17 G15 G13 TB22 G17 G15 G13
TB13 G18 G16 G14 TB23 G18 G16 G14
TB14 G19 G17 G15 TB24 G19 G17 G15
TB15 B14 B12 B10 TB25 B14 B12 B10
TB16 B15 B13 B11 TB26 B15 B13 B11
TC10 B16 B14 B12 TC20 B16 B14 B12
TC11 B17 B15 B13 TC21 B17 B15 B13
TC12 B18 B16 B14 TC22 B18 B16 B14
TC13 B19 B17 B15 TC23 B19 B17 B15
TC14 HSYNC1 HSYNC1 HSYNC1 TC24 HSYNC1 HSYNC1 HSYNC1
TC15 VSYNC1 VSYNC1 VSYNC1 TC25 VSYNC1 VSYNC1 VSYNC1
TC16 DE1 DE1 DE1 TC26 DE1 DE1 DE1
TD10 R12 R18 R16 TD20 R12 R18 R16
TD11 R13 R19 R17 TD21 R13 R19 R17
TD12 G12 G18 G16 TD22 G12 G18 G16
TD13 G13 G19 G17 TD23 G13 G19 G17
TD14 B12 B18 B16 TD24 B12 B18 B16
TD15 B13 B19 B17 TD25 B13 B19 B17
TD16 CONT11 CONT11 CONT11 TD26 CONT11 CONT11 CONT11
TE10 R10 R10 R18 TE20 R10 R10 R18
TE11 R11 R11 R19 TE21 R11 R11 R19
TE12 G10 G10 G18 TE22 G10 G10 G18
TE13 G11 G11 G19 TE23 G11 G11 G19
TE14 B10 B10 B18 TE24 B10 B10 B18
TE15 B11 B11 B19 TE25 B11 B11 B19
TE16 CONT12 CONT12 CONT12 TE26 CONT12 CONT12 CONT12
THC63LVD1023B _Rev.3.1_E
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LVDS Output Data Mapping (Continued)
Table7. LVDS Output Data Mapping
(Single-in/Dual-out, DDR On or Off, Port Switch On, MODE<1:0>=HL, MODE2=H or L, MODE3=L)
LVDS
Output Data
(1st Link)
Mapping Mode (Input Pin Name) LVDS
Output Data
(2nd Link)
Mapping Mode (In pu t Pi n N ame)
Mode1
MAP=VIHM
Mode2
MAP=VILM
Mode3
MAP=VIMM
Mode1
MAP=VIHM
Mode2
MAP=VILM
Mode3
MAP=VIMM
TA10 R24 R22 R20 TA20 R24 R22 R20
TA11 R25 R23 R21 TA21 R25 R23 R21
TA12 R26 R24 R22 TA22 R26 R24 R22
TA13 R27 R25 R23 TA23 R27 R25 R23
TA14 R28 R26 R24 TA24 R28 R26 R24
TA15 R29 R27 R25 TA25 R29 R27 R25
TA16 G24 G22 G20 TA26 G24 G22 G20
TB10 G25 G23 G21 TB20 G25 G23 G21
TB11 G26 G24 G22 TB21 G26 G24 G22
TB12 G27 G25 G23 TB22 G27 G25 G23
TB13 G28 G26 G24 TB23 G28 G26 G24
TB14 G29 G27 G25 TB24 G29 G27 G25
TB15 B24 B22 B20 TB25 B24 B22 B20
TB16 B25 B23 B21 TB26 B25 B23 B21
TC10 B26 B24 B22 TC20 B26 B24 B22
TC11 B27 B25 B23 TC21 B27 B25 B23
TC12 B28 B26 B24 TC22 B28 B26 B24
TC13 B29 B27 B25 TC23 B29 B27 B25
TC14 HSYNC2 HSYNC2 HSYNC2 TC24 HSYNC2 HSYNC2 HSYNC2
TC15 VSYNC2 VSYNC2 VSYNC2 TC25 VSYNC2 VSYNC2 VSYNC2
TC16 DE2 DE2 DE2 TC26 DE2 DE2 DE2
TD10 R22 R28 R26 TD20 R22 R28 R26
TD11 R23 R29 R27 TD21 R23 R29 R27
TD12 G22 G28 G26 TD22 G22 G28 G26
TD13 G23 G29 G27 TD23 G23 G29 G27
TD14 B22 B28 B26 TD24 B22 B28 B26
TD15 B23 B29 B27 TD25 B23 B29 B27
TD16 CONT21 CONT21 CONT21 TD26 CONT21 CONT21 CONT21
TE10 R20 R20 R28 TE20 R20 R20 R28
TE11 R21 R21 R29 TE21 R21 R21 R29
TE12 G20 G20 G28 TE22 G20 G20 G28
TE13 G21 G21 G29 TE23 G21 G21 G29
TE14 B20 B20 B28 TE24 B20 B20 B28
TE15 B21 B21 B29 TE25 B21 B21 B29
TE16 CONT22 CONT22 CONT22 TE26 CONT22 CONT22 CONT22
THC63LVD1023B_Rev.3.1_E
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LVDS Output Data Mapping (Continued)
Table8. LVDS Output Data Mapping (Dual-in/Single-out, MODE<1:0>=LH)
LVDS
Output Data
(1st Pixel)
Mapping Mode (Input Pin Name) LVDS
Output Data
(2nd Pixel)
Mapping Mode (Input Pin Name)
Mode1
MAP=VIHM
Mode2
MAP=VILM
Mode3
MAP=VIMM
Mode1
MAP=VIHM
Mode2
MAP=VILM
Mode3
MAP=VIMM
TA10(n) R14 R12 R10 TA10(n+1) R24 R22 R20
TA11(n) R15 R13 R11 TA11(n+1) R25 R23 R21
TA12(n) R16 R14 R12 TA12(n+1) R26 R24 R22
TA13(n) R17 R15 R13 TA13(n+1) R27 R25 R23
TA14(n) R18 R16 R14 TA14(n+1) R28 R26 R24
TA15(n) R19 R17 R15 TA15(n+1) R29 R27 R25
TA16(n) G14 G12 G10 TA16(n+1) G24 G22 G20
TB10(n) G15 G13 G11 TB10(n+1) G25 G23 G21
TB11(n) G16 G14 G12 TB11(n+1) G26 G24 G22
TB12(n) G17 G15 G13 TB12(n+1) G27 G25 G23
TB13(n) G18 G16 G14 TB13(n+1) G28 G26 G24
TB14(n) G19 G17 G15 TB14(n+1) G29 G27 G25
TB15(n) B14 B12 B10 TB15(n+1) B24 B22 B20
TB16(n) B15 B13 B11 TB16(n+1) B25 B23 B21
TC10(n) B16 B14 B12 TC10(n+1) B26 B24 B22
TC11(n) B17 B15 B13 TC11(n+1) B27 B25 B23
TC12(n) B18 B16 B14 TC12(n+1) B28 B26 B24
TC13(n) B19 B17 B15 TC13(n+1) B29 B27 B25
TC14(n) HSYNC1 HSYNC1 HSYNC1 TC14(n+1) HSYNC1 HSYNC1 HSYNC1
TC15(n) VSYNC1 VSYNC1 VSYNC1 TC15(n+1) VSYNC1 VSYNC1 VSYNC1
TC16(n) DE1 DE1 DE1 TC16(n+1) DE1 DE1 DE1
TD10(n) R12 R18 R16 TD10(n+1) R22 R28 R26
TD11(n) R13 R19 R17 TD11(n+1) R23 R29 R27
TD12(n) G12 G18 G16 TD12(n+1) G22 G28 G26
TD13(n) G13 G19 G17 TD13(n+1) G23 G29 G27
TD14(n) B12 B18 B16 TD14(n+1) B22 B28 B26
TD15(n) B13 B19 B17 TD15(n+1) B23 B29 B27
TD16(n) CONT11 CONT11 CONT11 TD16(n+1) CONT21 CONT21 CONT21
TE10(n) R10 R10 R18 TE10(n+1) R20 R20 R28
TE11(n) R11 R11 R19 TE11(n+1) R21 R21 R29
TE12(n) G10 G10 G18 TE12(n+1) G20 G20 G28
TE13(n) G11 G11 G19 TE13(n+1) G21 G21 G29
TE14(n) B10 B10 B18 TE14(n+1) B20 B20 B28
TE15(n) B11 B11 B19 TE15(n+1) B21 B21 B29
TE16(n) CONT12 CONT12 CONT12 TE16(n+1) CONT22 CONT22 CONT22
THC63LVD1023B_Rev.3.1_E
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LVDS Output Data Mapping (Continued)
Table9. LVDS Output Data Mapping (Dual-in/Dual-out, MODE<1:0>=LL)
LVDS
Output Data
(1st Link)
Mapping Mode (Input Pin Name) LVDS
Output Data
(2nd Link)
Mapping Mode (Input Pin Name)
Mode1
MAP=VIHM
Mode2
MAP=VILM
Mode3
MAP=VIMM
Mode1
MAP=VIHM
Mode2
MAP=VILM
Mode3
MAP=VIMM
TA10 R14 R12 R10 TA20 R24 R22 R20
TA11R15R13R11TA21R25R23R21
TA12 R16 R14 R12 TA22 R26 R24 R22
TA13 R17 R15 R13 TA23 R27 R25 R23
TA14 R18 R16 R14 TA24 R28 R26 R24
TA15 R19 R17 R15 TA25 R29 R27 R25
TA16 G14 G12 G10 TA26 G24 G22 G20
TB10 G15 G13 G11 TB20 G25 G23 G21
TB11 G16 G14 G12 TB21 G26 G24 G22
TB12 G17 G15 G13 TB22 G27 G25 G23
TB13 G18 G16 G14 TB23 G28 G26 G24
TB14 G19 G17 G15 TB24 G29 G27 G25
TB15 B14 B12 B10 TB25 B24 B22 B20
TB16 B15 B13 B11 TB26 B25 B23 B21
TC10 B16 B14 B12 TC20 B26 B24 B22
TC11 B17 B15 B13 TC21 B27 B25 B23
TC12 B18 B16 B14 TC22 B28 B26 B24
TC13 B19 B17 B15 TC23 B29 B27 B25
TC14 HSYNC1 HSYNC1 HSYNC1 TC24 HSYNC1 HSYNC1 HSYNC1
TC15 VSYNC1 VSYNC1 VSYNC1 TC25 VSYNC1 VSYNC1 VSYNC1
TC16 DE1 DE1 DE1 TC26 DE1 DE1 DE1
TD10 R12 R18 R16 TD20 R22 R28 R26
TD11 R13 R19 R17 TD21 R23 R29 R27
TD12 G12 G18 G16 TD22 G22 G28 G26
TD13 G13 G19 G17 TD23 G23 G29 G27
TD14 B12 B18 B16 TD24 B22 B28 B26
TD15 B13 B19 B17 TD25 B23 B29 B27
TD16 CONT11 CONT11 CONT11 TD26 CONT21 CONT21 CONT21
TE10 R10 R10 R18 TE20 R20 R20 R28
TE11 R11 R11 R19 TE21 R21 R21 R29
TE12 G10 G10 G18 TE22 G20 G20 G28
TE13 G11 G11 G19 TE23 G21 G21 G29
TE14 B10 B10 B18 TE24 B20 B20 B28
TE15 B11 B11 B19 TE25 B21 B21 B29
TE16 CONT12 CONT12 CONT12 TE26 CONT22 CONT22 CONT22
THC63LVD1023B _Rev.3.1_E
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LVDS Output Data Mapping (Continued)
Table10. LVDS Output Data Mapping (Asynchronous Cross point switching Off, ASYNC=H MODE2=L)
LVDS
Output Data
(1st Link)
Mapping
(MAP= Don’t care)
(Input Pin Name)
LVDS
Output Data
(2nd Link)
Mapping
(MAP= Don’t care)
(Input Pin Name)
TA10 TA10 TA20 TA20
TA11 TA11 TA21 TA21
TA12 TA12 TA22 TA22
TA13 TA13 TA23 TA23
TA14 TA14 TA24 TA24
TA15 TA15 TA25 TA25
TA16 TA16 TA26 TA26
TB10 TB10 TB20 TB20
TB11 TB11 TB21 TB21
TB12 TB12 TB22 TB22
TB13 TB13 TB23 TB23
TB14 TB14 TB24 TB24
TB15 TB15 TB25 TB25
TB16 TB16 TB26 TB26
TC10 TC10 TC20 TC20
TC11 TC11 TC21 TC21
TC12 TC12 TC22 TC22
TC13 TC13 TC23 TC23
TC14 TC14 TC24 TC24
TC15 TC15 TC25 TC25
TC16 TC16 TC26 TC26
TD10 TD10 TD20 TD20
TD11 TD11 TD21 TD21
TD12 TD12 TD22 TD22
TD13 TD13 TD23 TD23
TD14 TD14 TD24 TD24
TD15 TD15 TD25 TD25
TD16 TD16 TD26 TD26
TE10 TE10 TE20 TE20
TE11 TE11 TE21 TE21
TE12 TE12 TE22 TE22
TE13 TE13 TE23 TE23
TE14 TE14 TE24 TE24
TE15 TE15 TE25 TE25
TE16 TE16 TE26 TE26
THC63LVD1023B _Rev.3.1_E
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LVDS Output Data Mapping (Continued)
Table11. LVDS Ou tput Data Mapping (Asynchronous Cross point switching On, ASYNC=H MODE2=H)
LVDS
Output Data
(1st Link)
Mapping
(MAP= Don’t care)
(Input Pin Name)
LVDS
Output Data
(2nd Link)
Mapping
(MAP= Don’t care)
(Input Pin Name)
TA10 TA20 TA20 TA10
TA11 TA21 TA21 TA11
TA12 TA22 TA22 TA12
TA13 TA23 TA23 TA13
TA14 TA24 TA24 TA14
TA15 TA25 TA25 TA15
TA16 TA26 TA26 TA16
TB10 TB20 TB20 TB10
TB11 TB21 TB21 TB11
TB12 TB22 TB22 TB12
TB13 TB23 TB23 TB13
TB14 TB24 TB24 TB14
TB15 TB25 TB25 TB15
TB16 TB26 TB26 TB16
TC10 TC20 TC20 TC10
TC11 TC21 TC21 TC11
TC12 TC22 TC22 TC12
TC13 TC23 TC23 TC13
TC14 TC24 TC24 TC14
TC15 TC25 TC25 TC15
TC16 TC26 TC26 TC16
TD10 TD20 TD20 TD10
TD11 TD21 TD21 TD11
TD12 TD22 TD22 TD12
TD13 TD23 TD23 TD13
TD14 TD24 TD24 TD14
TD15 TD25 TD25 TD15
TD16 TD26 TD26 TD16
TE10 TE20 TE20 TE10
TE11 TE21 TE21 TE11
TE12 TE22 TE22 TE12
TE13 TE23 TE23 TE13
TE14 TE24 TE24 TE14
TE15 TE25 TE25 TE15
TE16 TE26 TE26 TE16
THC63LVD1023B_Rev.3.1_E
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Note
1)Cable Connection and Disconnection
Don't connect and disconnect the LVDS cable, when the power is supplied to the system.
2)GND Connection
Connect the each GND of the PCB which THC63LVD1023B and LVDS-Rx on it. It is better for EMI reduction to
place GND cable as close to LVDS cable as possible.
3)Multi Drop Connection
Multi drop connection is not recommended.
4)Asynchronous use
Asynchronous use such as following systems are not recommended.
LVDS-Rx
THC63LVD1023B LVDS-Rx
TCLK+
TCLK-
THC63LVD1023B
THC63LVD1023B
IC
CLKOUT
CLKOUT
DATA
DATA LVDS-Rx
LVDS-Rx
IC
TCLK+
TCLK-
TCLK+
TCLK-
CLKOUT
DATA
DATA
THC63LVD1023B
THC63LVD1023B
IC
TCLK+
TCLK-
TCLK+
TCLK-
CLKOUT
CLKOUT
DATA
DATA
IC
THC63LVD1023B _Rev.3.1_E
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Package
0.25mm
GAGE PLANE
22.00 BSC.
20.00 BSC.
22.00 BSC.
20.00 BSC.
17.50
0.50 BSC. 0.20 +0 .0 7/-0.03
17.50
0.10 S
SSEATING PLANE
1.60 MAX
1.40 +/-0 .05 0.05~0.15
1.00 REF
0.09~0.20
0.60 +/-0.15
0.20 MIN
3.5+/-3.5 de gree
INDEX
UNIT:mm
THC63LVD1023B
THC63LVD1023B _Rev.3.1_E
Copyright©2015 THine Electronics, Inc. 26/26 THine Electronics, Inc.
Security E
N otices a nd Requests
1. The product specifications described in this material are subject to change without prior notice.
2. The circui t diagrams described in this material are examples of the application which may not always apply
to the customer's desi gn. We are not responsible for possible errors and om issions in this mater ial. Please
note if errors or omissions should be found in this material, we may not be able to correct the
m
i mmediately.
3. This material contains our copyr ight, know-how or other proprietary. Copying or disclos ing to third parties
the contents of this material witho ut our prior permission is prohibited.
4. Note that i f i nfringement of any third party's industrial ow nership should occur by using this product, w e
will be exempted from the responsibility unle ss it directly relates to the production process or functions o
f
the product.
5. Product Application
5.1 Application of this product is intended for and limited to the following applications: audio-video
device, office automation device, communication device, consumer electronics, smartphone, feature
phone, and amusement machine device. This product must not be used for applications that require
ex tr emely hi gh-reli abili ty/s afet y s uch as a erospa ce de vice, traf fi c devi ce , tra nsp ort at io n devi ce, nucl ear
p
o w er cont rol d evi ce, com b ust io n c ham ber de vic e, m e dical de vic e r elate d t o cri tical ca re , or any kin d
of safety device.
5.2 Th is p roduct is no t intende d to be us ed as an autom oti ve part , u nle ss the produ ct i s s peci fied a s
a
p
roduct conforming to the demands and specifications of ISO/TS16949 ("the Specified Product") in
this data she et. THi ne Electro nic s, Inc . (“T Hine ”) ac cepts no lia bil ity wha ts oeve r fo r any produc t other
than the Specified Product for it not conforming to the aforementioned demands and specifications.
5.3 THi ne ac cep ts l ia bility for deman ds and spec ificatio ns of t he Spec if ied Pro duct only to th e extent
that the user and THine have been previously and explicitly agreed to each o ther.
6. Despite our utmost efforts to improve the quality and reliability of the product, faults will occur with
a
certain small probability, which is inevita ble to a semi-conductor product. Therefore, you are e ncouraged to
have sufficiently redundant or error preventive design applied to the use of the product so as not to have our
product cause any social or public damage.
7. Please note that this product is not desi gned to be radiation-proof.
8. Customers are asked, if required, to judge by themselves if this product falls under the category of strategic
goods under the Foreign Exchange a nd Foreign Trade Control Law.
9. The product or peripheral parts may be dama ged by a surge in voltage over the absolute maximum r at ings o
r
malfunction, if pins of the product are shorted by such as foreign substance. The damage may cause
a
smoking and ignition. Therefore, you are encouraged to implement safety measures by adding protection
devices, such as fuses.
THine Electronics, Inc.
E-mail: sales@thine.co.jp