THC63LVD824A _Rev1.20_E
Copyright©2014 THine Electronics, Inc. 1/14 THine Electronics, Inc.
THC63LVD824A
Single(112MHz)/Dual(170MHz) Link LVDS Receiver for XGA/SXGA/SXGA+/UXGA
General Description
The THC63LVD824A receiver is designed to support
Single Link transmission between Host and Flat Panel
Display up to SXGA resolutions and Dual Link trans-
mission between Host and Flat Panel Display up to
UXGA resolutions. The THC63LVD824A converts the
LVDS data streams back into 48bits of CMOS/TTL data
with falling edge or rising edge clock for convenient
with a variety of LCD panel controllers.
In Single Link, data transmit clock frequency of
112MHz, 48bits of RGB data are transmitted at an
effective rate of 784Mbps per LVDS channel. Using a
112MHz clock, the data throughput is 392Mbytes per
second.
In Dual Link, data tran smit clock frequency of 85 MHz,
48bits of RGB data are transmitted at an effective rate
of 595Mbps per LVDS channel. Using a 85MHz clock,
the data throughput is 595Mbytes per second.
Features
•Wide dot clock range: 25-17 0MHz suit ed for VGA,
SVGA, XGA, SXGA, SX GA+ and UXGA
•PLL requires No external components
•Supports Single Link up to 112MHz dot clock for
SXGA
•Supports Dual Link up to 170MHz dot clock for
UXGA
•50% output clo c k d ut y cycle
•TTL clock edge programmable
•TTL output driverbility selectable for lower EMI
•Power down mode
•Low power single 3.3V CMOS design
•100pin TQFP
•THC63LV DF84B com pati ble
•Pin compatible with THC63LVD824
Block Diagram
SERIAL TO PARALLEL
PLL
SERIAL TO PARALLEL
PLL
28
28
DEMUX
RA1 +/-
RB1 +/-
RC1 +/-
RD1 +/-
RCLK1 +/-
RA2 +/-
RB2 +/-
RC2 +/-
RD2 +/-
R/F
/PDWN
(25 to 112MHz)
RCLK2 +/-
(25 to 85MHz)
1st Link
8
8
8
8
8
8
RED1
GREEN1
BLUE1
HSYNC
VSYNC
DE
RED2
GREEN2
BLUE2
RECEIVER CLOCK OUT
(12.5 to 85MHz)
1st DATA
2nd DATA
CMOS/TTL OUTPUT
2nd Link
LVDS INPUT
Copyright©2014 THine Electronics, Inc. 2/14 THine Electronics, Inc.
THC63LVD824A _Rev1.20_E
Pin Out
LVDS GND
RA1-
RA1+
RB1-
RB1+
LVDS VCC
RC1-
RC1+
RCLK1-
RCLK1+
RD1-
RD1+
LVDS GND
RA2-
RA2+
RB2-
RB2+
LVDS VCC
RC2-
RC2+
RCLK2-
RCLK2+
RD2-
RD2+
LVDS GND
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
R15
GND
VCC
R14
R13
R12
R11
R10
GND
VCC
CLKOUT
B27
B26
B25
B24
B23
GND
VCC
B22
B21
B20
G27
GND
VCC
G26
50
49
48
47
46
45
44
43
42
41
40
39
38
37
36
35
34
33
32
31
30
29
28
27
26
PLL GND
PLL VCC
GND
/PDWN
MODE0
MODE1
GND
R/F
DRVSEL
R20
R21
R22
R23
R24
VCC
GND
R25
R26
R27
G20
G21
G22
G23
G24
G25
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
DE
VSYNC
HSYNC
B17
B16
GND
VCC
B15
B14
B13
B12
B11
B10
G17
G16
G15
G14
G13
GND
VCC
G12
G11
G10
R17
R16
75
74
73
72
71
70
69
68
67
66
65
64
63
62
61
60
59
58
57
56
55
54
53
52
51
Copyright©2014 THine Electronics, Inc. 3/14 THine Electronics, Inc.
THC63LVD824A _Rev1.20_E
Pin Description
Pin Name Pin # Type Description
RA1+, RA1- 78, 77 LVDS IN
The 1st Link. The 1st pixel input data when Dual Link.
RB1+, RB1- 80, 79 LVDS IN
RC1+, RC1- 83, 82 LVDS IN
RD1+, RD1- 87, 86 LVDS IN
RCLK1+, RCLK1- 85, 84 LVDS IN LVDS Cloc k Input fo r 1st Link.
RA2+, RA2- 90, 89 LVDS IN
The 2nd Link. These pins are disabled when Single Link.
RB2+, RB2- 92, 91 LVDS IN
RC2+, RC2- 95, 94 LVDS IN
RD2+, RD2- 99, 98 LVDS IN
RCLK2+, RCLK2- 97, 96 LVDS IN LVDS Clock Input fo r 2nd Link.
R17 ~ R10 52, 51, 50, 47,
46, 45, 44, 43 OUT
The 1st Pixe l Data Outputs.G17 ~ G10 62, 61, 60, 59,
58, 55, 54, 53 OUT
B17 ~ B10 72, 71, 68, 67,
66, 65, 64, 63 OUT
R27 ~ R20 19, 18, 17, 14,
13, 12, 11, 10 OUT
The 2nd Pixel Data Outputs.G27 ~ G20 29, 26, 25, 24,
23, 22, 21, 20 OUT
B27 ~ B20 39, 38, 37, 36,
35, 32, 31, 30 OUT
DE 75 OUT Data Enable Output.
VSYNC 74 OUT Vsync Output.
HSYNC 73 OUT Hsync Output.
CLKOUT 40 OUT Clock Output.
DRVSEL 9 IN
R/F 8 IN Output Clock Triggering Edge Select.
H: Rising edge, L: Falling edge.
MODE1, MODE0 6, 5 IN
/PDWN 4 IN H: Normal operation,
L: Power down (all outputs are pulled to ground)
VCC 15, 27, 33, 41,
48, 56, 69 Power Power Supply Pins for TTL outpu ts and digital circuitry.
GND 3, 7, 16, 28, 34,
42, 49, 57, 70 Ground Ground Pins for TTL outputs and digit a l ci rcuitry.
LVDS VCC 81,93 Power Power Supply Pins for LVDS inputs.
LVDS GND 76, 88, 100 Ground Ground Pins for LVDS inputs.
Output Driverbility Select.
DRVSEL clock data
H 8mA 4mA
L 4mA 2mA
Pixel Data Mode.
MODE1 MODE0 Mode
L L Dual Link (Dual-in/Dual-out)
L H Single Link(Single-in/Dual-out)
other Not Available
Copyright©2014 THine Electronics, Inc. 4/14 THine Electronics, Inc.
THC63LVD824A _Rev1.20_E
Absolute Maximum Ratings 1
Electrical Characteristics
CMOS/TTL DC Specifications VCC = 3.0V ~ 3.6V, Ta = -10 ~ +70
LVDS Receiver DC Specifications VCC = 3.0V ~ 3.6V, Ta = -10 ~ +70
PLL VCC 2 Power Power Supply Pin for PLL circuitry.
PLL GND 1 Ground Ground Pin for PLL circuitry.
Supply Voltage (VCC)-0.3V ~ +4.0V
CMOS/TTL Input Voltage -0.3V ~ (VCC + 0.3V) ( ≦4.0V)
CMOS/TTL Output Voltage -0.3V ~ (VCC + 0.3V) ( ≦4.0V)
LVDS Receiver Input Voltage -0.3V ~ (VCC + 0.3V) ( ≦4.0V)
Output Current -15mA ~ 15mA
Junction Temperature +125
Storage Temperature Range -55 ~ +125
Maximum Power Dissip ation @+25 1.7W
1. “Absolute Maximum Ratings” are those valued beyond whi c h the safety of the devi ce can not be guaranteed. They
are not meant to imply that the device should be operated at these limits. The tables of “Electrical Characteristics”
specify conditions for device operation.
Symbol Parameter Conditions Min. Typ. Max. Units
VIH High Level Input Voltage 2.0 VCC V
VIL Low Level Input Voltage GND 0.8 V
VOH High Level Output Voltage IOH= -2mA, -4mA (data)
IOH= -4mA, -8mA (clock) 2.4 V
VOL Low Level Output Voltage IOL= 2mA, 4mA (data)
IOL= 4mA, 8mA (clock) 0.4 V
IINC Input Current μA
Symbol Parameter Conditions Min. Typ. Max. Units
VTH Differential Input High Threshold VIC= 1.2V 100 mV
VTL Differential Input Low Threshold VIC= 1.2V -100 mV
IINL Input Current VIN= 2.4V / 0V
VCC= 3.6V μA
Pin Name Pin # Type Description
°C
°C°C
°C
°C°C
0V VIN VCC
≤≤ 10±
°C°C
20±
Copyright©2014 THine Electronics, Inc. 5/14 THine Electronics, Inc.
THC63LVD824A _Rev1.20_E
Switching Characteristics
VCC = 3.0V ~ 3.6V, Ta = -10 ~ +70
Symbol Parameter Min. Typ. Max. Units
tRCP CLKOUT Period Dual-in / Dual-out 11.76 tRCIP 40.0 ns
Single-in / Dual-out 17.85 2tRCIP 80.0 ns
tRCH CLKOUT High Time ns
tRCL CKLOUT Low Time ns
tRS TTL Data Setup to CLKOUT 0.3tRCP-0.5 ns
tRH TTL Data Hold from CKLOUT 0.3tRCP-0.5 ns
tTLH TTL Low to High Transition Time 2.5 4.0 ns
tTHL TTL High to Low Transition Time 2.5 4.0 ns
tSK Receiver Skew
Margin CLKIN=85MHz -0.40 +0.40 ns
CLKIN=112MHz -0.25 +0.25 ns
tRIP1 Input Data Position0 -tSK 0.0 +tSK ns
tRIP0 Input Data Position1 ns
tRIP6 Input Data Position2 ns
tRIP5 Input Data Position3 ns
tRIP4 Input Data Position4 ns
tRIP3 Input Data Position5 ns
tRIP2 Input Data Position6 ns
tRPLL Phase Lock Loop Set 10.0 ms
tRCIP CLKIN Period 8.92 40.0 ns
tCK12 Skew Time between RCLK1 and
RCLK2 ns
°C°C
tRCP
2
-----------
tRCP
2
-----------
tRCIP
7
-------------t
SK
–tRCIP
7
-------------tRCIP
7
-------------t
SK
+
2tRCIP
7
-------------t
SK
–2
tRCIP
7
-------------2
tRCIP
7
-------------t
SK
+
3tRCIP
7
-------------t
SK
–3
tRCIP
7
-------------3
tRCIP
7
-------------t
SK
+
4tRCIP
7
-------------t
SK
–4
tRCIP
7
-------------4
tRCIP
7
-------------t
SK
+
5tRCIP
7
-------------t
SK
–5
tRCIP
7
-------------5
tRCIP
7
-------------t
SK
+
6tRCIP
7
-------------t
SK
–6
tRCIP
7
-------------6
tRCIP
7
-------------t
SK
+
0.3tRCIP
±
Supply Current
VCC = 3.0V ~ 3.6V, Ta = -10 ~ +70
Symbol Parameter Condition(*) Typ. Max. Units
IRCCW
Receiver Supply
Current
(Worst Case Pattern)
fCLKOUT = 85MHz MODE<1:0>=LL
CL=8pF,
Vcc=3.6V 225 mA
IRCCS Receiver Power Down
Supply Current /PDWN = L 10 μA
°C°C
Copyright©2014 THine Electronics, Inc. 6/14 THine Electronics, Inc.
THC63LVD824A _Rev1.20_E
AC Timing Diagrams
TTL Outputs
Phase Lock Loop Set Time
VCC 3.0V
2.0V
2.0V
tRPLL
RCLKx+/-
/PDWN
CLKOUT
VCC/2
R/F = L
R/F = H
tRCP
tRS tRH
tRCH tRCL
CLKOUT VCC/2
VCC/2
VCC/2
VCC/2
Rxn
Gxn
Bxn
x = 1,2
n = 0~7
8pF
TTL Output
TTL Output Load
20%
80%
20%
80%
tTLH tTHL
Copyright©2014 THine Electronics, Inc. 7/14 THine Electronics, Inc.
THC63LVD824A _Rev1.20_E
Pixel Map Table for Single/Dual Link
TFT Panel Data
LSB 24Bit 18Bit
824A TTLOutputPin
1st Pixel Data
R10 -
MSB
R11
R12
R13
R14
R15
R16
R17
-
R10
R11
R12
R13
R14
R15
LSB
MSB
G11
G12
G13
G14
G15
G16
G17
-
G10
G11
G12
G13
G14
G15
G10 -
LSB
MSB
B11
B12
B13
B14
B15
B16
B17
-
B10
B11
B12
B13
B14
B15
B10 -
R10
R11
R12
R13
R14
R15
R16
R17
G11
G12
G13
G14
G15
G16
G17
G10
B11
B12
B13
B14
B15
B16
B17
B10
TFT Panel Data
LSB 24Bit 18Bit
824A TTLOutputPin
2nd Pixel Data
R20 -
MSB
R21
R22
R23
R24
R25
R26
R27
-
R20
R21
R22
R23
R24
R25
LSB
MSB
G21
G22
G23
G24
G25
G26
G27
-
G20
G21
G22
G23
G24
G25
G20 -
LSB
MSB
B21
B22
B23
B24
B25
B26
B27
-
B20
B21
B22
B23
B24
B25
B20 -
R20
R21
R22
R23
R24
R25
R26
R27
G21
G22
G23
G24
G25
G26
G27
G20
B21
B22
B23
B24
B25
B26
B27
B20
Copyright©2014 THine Electronics, Inc. 8/14 THine Electronics, Inc.
THC63LVD824A _Rev1.20_E
TFT Panel
(1280 x 1024)
#1 #2 #1280#1279
HSYNC
DE
CLKOUT
R1x/G1x/B1x
R2x/G2x/B2x
#1
#2
#3
#4
#5
#6 #8
#1279
#1280
#1277
#1278
1275
1276
#7
n = 0~7
824A TTL Data Output Timing for Single/Dual Link
Example : SXGA(1280 x 1024)
Copyright©2014 THine Electronics, Inc. 9/14 THine Electronics, Inc.
THC63LVD824A _Rev1.20_E
Vdiff = 0V
Ryx+/-
AC Timing Diagrams
LVDS Inputs
Ryx6 Ryx5 Ryx4 Ryx3 Ryx2 Ryx1 Ryx0 Ryx6 Ryx5 Ryx4 Ryx3 Ryx2 Ryx1
Vdiff = 0V
tRIP2
tRIP3
tRIP4
tRIP5
tRIP6
tRIP0
tRIP1
tRCIP
RCLKx+
x = 1,2
y = A,B,C,D
Vdiff = 0V
tCK12
RCLK1+
Vdiff = 0V
RCLK2+
Note:
Vdiff = (Ryx+) - (Ryx-), (RCLKx+) - (RCLKx-)
Copyright©2014 THine Electro nics, Inc. 10/14 THine Electronics, Inc.
THC63LVD824A _Rev1.20_E
LVDS Data Inputs Timing Diagrams in Single Link
RA1+/- R26’ R25’ R24’ R23’ R22’ G12 R17 R16 R15 R14 R13 R12 G22’’
RB1+/- G27’ G26’ G25’ G24’ G23’ B13 B12 G17 G16 G15 G14 G13 B23’’
RC1+/- HSYNC’ B27’ B26’ B25’ B24’ DE VSYNC HSYNC B17 B16 B15 B14 DE’’
RD1+/- B20’ G21’ G20’ R21’ R20’ x B11 B10 G11 G10 R11 R10 x’’
RCLK1+
Previous Cycle Current Cycle
(2nd pixel data) (1st pixel data)
Copyright©2014 TH ine Electronics, Inc. 11/14 THine Electronics, Inc.
THC63LVD824A _Rev1.20_E
LVDS Data Inputs Timing Diagrams in Dual Link
RA1+/- R16’ R15’ R14’ R13’ R12’ G12 R17 R16 R15 R14 R13 R12 G12’’
RB1+/- G17’ G16’ G15’ G14’ G13’ B13 B12 G17 G16 G15 G14 G13 B13’’
RC1+/- HSYNC’ B17’ B16’ B15’ B14’ DE VSYNC HSYNC B17 B16 B15 B14 DE’’
RD1+/- B10’ G11’ G10’ R11’ R10’ xB11 B10 G11 G10 R11 R10 x’’
RA2+/- R26’ R25’ R24’ R23’ R22’ G22 R27 R26 R25 R24 R23 R22 G22’’
RB2+/- G27’ G26’ G25’ G24’ G23’ B23 B22 G27 G26 G25 G24 G23 B23’’
RC2+/- B27’ B26’ B25’ B24’ B27 B26 B25 B24
RD2+/- B20’ G21’ G20’ R21’ R20’ xB21 B20 G21 G20 R21 R20 x’’
RCLK1+
RCLK2+
x’’xxxx’
Previous Cycle Current Cycle
Copyright©2014 THine Electro nics, Inc. 12/14 THine Electronics, Inc.
THC63LVD824A _Rev1.20_E
Note
1)Power On Sequence
Power on LVDS-Tx after THC63LVD824A. If it is not avoidable, please contact to
mspsupport@thine.co.jp (for FAE mailing list)
2)Cable Connection and Disconnection
Don't connect and disconnect the LVDS cable , when the power is supplied to the system.
3)GND Connection
Connect the each GND of the PCB which LVDS-Tx and THC63LVD824A on it. It is better for EMI reduction to place
GND cable as close to LVDS cable as possible.
4)Multi Drop Connection
Multi drop connection is not recommended .
5)Asynchronous use
Asynchronous use such as following systems are not recommended. If it is not avoidable, please contact to
mspsupport@thine.co.jp (for FAE mailing list)
THC63LVD824A
LVDS-Tx THC63LVD824A
TCLK+
TCLK-
THC63LVD824A
THC63LVD824ALVDS-Tx
LVDS-Tx
IC
CLKOUT
CLKOUT
DATA
DATA
IC
TCLK+
TCLK-
TCLK+
TCLK-
CLKOUT
DATA
DATA
THC63LVD824A
THC63LVD824A
IC
TCLK+
TCLK-
TCLK+
TCLK-
CLKOUT
DATA
DATA
IC
Copyright©2014 THine Electro nics, Inc. 13/14 THine Electronics, Inc.
THC63LVD824A _Rev1.20_E
Package
76100
5026
INDEX
PIN No.1
25 51
75
0.20
0.5TYP
1.2MAX
UNITS:mm
14.0SQ TYP
16.0SQ TYP
Copyright©2014 THine Electro nics, Inc. 14/14 THine Electronics, Inc.
THC63LVD824A _Rev1.20_E
Notices and Requests
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 the customer's design. We are not responsible for possible errors and omissions
in this material. Please note if errors or omissions should be found in this material, we may not
be able to correct them immediately.
3. This material contains our copyright, know-how or other proprietary. Copying or disclosing to
third parties the contents of this material without our prior permission is prohibited.
4. Note that if infringement of any third party's industrial ownership should occur by using this
product, we will be exempted from the responsibility unless it directly relates to the production
process or functions of the product.
5. This product is presumed to be used for general electric equipment, not for the applications
which require very high reliability (including medical equipment directly concerning people's
life, aerospace equipment, or nuclear control equipment). Also, when using this product for the
equipment concerned with the control and safety of the transportation means, the traffic signal
equipment, or various Types of safety equipment, please do it after applying appropriate
measures to the product.
6. Despite our utmost efforts to improve the quality and reliability of the product, faults will occur
with a certain small probability, which is inevitable to a semi-conductor product. Therefore, you
are encouraged to have suff iciently 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 designed 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 and Foreign Trade Control Law.
THine Electronics, Inc.
E-mail : sales@thine.co.jp
