THine THC63LVD824 Rev.1.03 THC63LVD824 Single(135MHz)/Dual(170MHz) Link LVDS Receiver for XGA/SXGA/SXGA+/UXGA General Description Features The THC63LVD824 receiver is designed to support Single Link transmission between Host and Flat Panel Display up to SXGA+ resolutions and Dual Link transmission between Host and Flat Panel Display up to UXGA resolutions. The THC63LVD824 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 135MHz, 48bits of RGB data are transmitted at an effective rate of 945Mbps per LVDS channel. Using a 135MHz clock, the data throughput is 472Mbytes per second. In Dual Link, data transmit clock frequency of 85MHz, 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. * Wide dot clock range: 25-170MHz suited for VGA, SVGA, XGA, SXGA, SXGA+ and UXGA * PLL requires No external components * Supports Single Link up to 135MHz dot clock for * * * * * * * * * SXGA+ Supports Dual Link up to 170MHz dot clock for UXGA 50% output clock duty cycle TTL clock edge programmable TTL output driverbility selectable for lower EMI Power down mode Low power single 3.3V CMOS design 100pin TQFP THC63LVDF84A compatible THC63LVD814 pin compatible Block Diagram RA1 +/RB1 +/1st Link RC1 +/RD1 +/- CMOS/TTL OUTPUT SERIAL TO PARALLEL LVDS INPUT 8 8 28 8 RED1 GREEN1 1st DATA BLUE1 HSYNC VSYNC RA2 +/RB2 +/2nd Link RC2 +/RD2 +/RCLK2 +/(25 to 85MHz) DE DEMUX PLL SERIAL TO PARALLEL RCLK1 +/(25 to 135MHz) RECEIVER CLOCK OUT (25 to 85MHz) 8 28 8 8 RED2 GREEN2 2nd DATA BLUE2 PLL R/F /PDWN Copyright 2000 THine Electronics, Inc. All rights reserved 1 THine Electronics, Inc. THine THC63LVD824 Rev.1.03 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 Pin Out GND VCC R14 R13 R12 R11 R10 GND VCC CLKOUT B27 B26 B25 B24 B23 GND VCC B22 B21 B20 G27 GND VCC G26 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 R15 49 48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 32 31 30 29 28 27 26 1 50 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 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 76 RA1RA1+ RB1RB1+ LVDS VCC RC1RC1+ RCLK1RCLK1+ RD1RD1+ LVDS GND RA2RA2+ RB2RB2+ LVDS VCC RC2RC2+ RCLK2RCLK2+ RD2RD2+ LVDS GND PLL GND LVDS GND 2 THine Electronics, Inc. THine THC63LVD824 Rev.1.03 Pin Description Pin Name Pin # Type Description RA1+, RA1- 78, 77 LVDS IN RB1+, RB1- 80, 79 LVDS IN RC1+, RC1- 83, 82 LVDS IN RD1+, RD1- 87, 86 LVDS IN RCLK1+, RCLK1- 85, 84 LVDS IN RA2+, RA2- 90, 89 LVDS IN RB2+, RB2- 92, 91 LVDS IN RC2+, RC2- 95, 94 LVDS IN RD2+, RD2- 99, 98 LVDS IN RCLK2+, RCLK2- 97, 96 LVDS IN R17 ~ R10 52, 51, 50, 47, 46, 45, 44, 43 OUT 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 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 The 1st Link. The 1st pixel input data when Dual Link. LVDS Clock Input for 1st Link. The 2nd Link. These pins are disabled when Single Link. LVDS Clock Input for 2nd Link. The 1st Pixel Data Outputs. The 2nd Pixel Data Outputs. Output Driverbility Select. H: High power, L: Low power. Output Clock Triggering Edge Select. H: Rising edge, L: Falling edge. Pixel Data Mode. MODE1 L L MODE0 L H Mode Dual Link Single Link MODE1, MODE0 6, 5 IN /PDWN 4 IN VCC 15, 27, 33, 41, 48, 56, 69 Power Power Supply Pins for TTL outputs and digital circuitry. GND 3, 7, 16, 28, 34, 42, 49, 57, 70 Ground Ground Pins for TTL outputs and digital circuitry. LVDS VCC 81,93 Power Power Supply Pins for LVDS inputs. LVDS GND 76, 88, 100 Ground Ground Pins for LVDS inputs. H: Normal operation, L: Power down (all outputs are pulled to ground) 3 THine Electronics, Inc. THine THC63LVD824 Rev.1.03 Pin Name Pin # Type Description PLL VCC 2 Power Power Supply Pin for PLL circuitry. PLL GND 1 Ground Ground Pin for PLL circuitry. Absolute Maximum Ratings 1 Supply Voltage (VCC) -0.3V ~ +4.0V CMOS/TTL Input Voltage -0.3V ~ (VCC + 0.3V) CMOS/TTL Output Voltage -0.3V ~ (VCC + 0.3V) LVDS Receiver Input Voltage -0.3V ~ (VCC + 0.3V) Output Current -30mA ~ 30mA Junction Temperature +125 C Storage Temperature Range -55 C ~ +125 C Lead Temperature (Soldering, 10sec) +230 C Maximum Power Dissipation @+25 C 1.0W Electrical Characteristics CMOS/TTL DC Specifications VCC = 3.0V ~ 3.6V, Ta = -10 C ~ +70 C 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 VOL Low Level Output Voltage IINC Input Current IOH= -2mA, -4mA (data) IOH= -4mA, -8mA (clock) 2.4 V IOH= -2mA, -4mA (data) IOH= -4mA, -8mA (clock) 0V VIN V CC 0.4 V 10 A LVDS Receiver DC Specifications VCC = 3.0V ~ 3.6V, Ta = -10 C ~ +70 C Symbol Parameter Conditions VTH Differential Input High Threshold VOC= 1.2V VTL Differential Input Low Threshold VOC= 1.2V IINL Input Current VIN= 2.4V / 0V VCC= 3.6V Min. Typ. Max. 100 -100 Units mV mV 20 A 1. "Absolute Maximum Ratings" are those valued beyond which the safety of the device 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. 4 THine Electronics, Inc. THine THC63LVD824 Rev.1.03 Supply Current VCC = 3.0V ~ 3.6V, Ta = -10 C ~ +70 C Symbol Parameter Receiver Supply IRCCG Receiver Supply VESA UXGA (60Hz), fCLKOUT = 81MHz VESA SXGA (60Hz), fCLKOUT = 54MHz Current (Double Checker Pattern) IRCCS VESA SXGA (60Hz), fCLKOUT = 54MHz Current (256 Gray Scale Pattern) IRCCW Condition(*) Receiver Power Down Supply Current VESA UXGA (60Hz), fCLKOUT = 81MHz /PDWN = L Typ. Max. Units 57 66 mA 85 97 mA 87 99 mA 148 173 mA 10 A MODE<1:0>=LH CL=8pF, Vcc=3.3V MODE<1:0>=LL CL=8pF, Vcc=3.3V MODE<1:0>=LH CL=8pF, Vcc=3.3V MODE<1:0>=LL CL=8pF, Vcc=3.3V (*) VESA is a trademark of the Video Electronics Standards Association. 5 THine Electronics, Inc. THine THC63LVD824 Rev.1.03 256 Gray Scale Pattern CLKOUT Rx0/Gx0/Bx0 Rx1/Gx1/Bx1 Rx2/Gx2/Bx2 Rx3/Gx3/Bx3 Rx4/Gx4/Bx4 Rx5/Gx5/Bx5 Rx6/Gx6/Bx6 Rx7/Gx7/Bx7 x=1,2 DE Double Checker Pattern CLKOUT R1n/G1n/B1n R2n/G2n/B2n n=0~7 DE 6 THine Electronics, Inc. THine THC63LVD824 Rev.1.03 Switching Characteristics VCC = 3.0V ~ 3.6V, Ta = -10 C ~ +70 C Symbol Parameter Min. Dual-in / Dual-out Typ. Max. Units 11.76 tRCIP 40.0 ns 14.8 2tRCIP 80.0 ns tRCP CLKOUT Period tRCH CLKOUT High Time t RCP ----------2 ns tRCL CKLOUT Low Time t RCP ----------2 ns tRS TTL Data Setup to CLKOUT 0.3tRCP ns tRH TTL Data Hold from CKLOUT 0.3tRCP ns tTLH TTL Low to High Transition Time 3.0 5.0 ns tTHL TTL High to Low Transition Time 3.0 5.0 ns tRIP1 Input Data Position0 (tRCIP = 7.4ns) -0.25 0.0 +0.25 ns tRIP0 Input Data Position1 (tRCIP = 7.4ns) t RCIP ------------ - 0.25 7 tRCIP ------------7 t RCIP ------------ + 0.25 7 ns tRIP6 Input Data Position2 (tRCIP = 7.4ns) t RCIP 2 ------------ - 0.25 7 tRCIP 2 -----------7 t RCIP 2 ------------ + 0.25 7 ns tRIP5 Input Data Position3 (tRCIP = 7.4ns) t RCIP 3 ------------ - 0.25 7 tRCIP 3 -----------7 t RCIP 3 ------------ + 0.25 7 ns tRIP4 Input Data Position4 (tRCIP = 7.4ns) t RCIP 4 ------------ - 0.25 7 tRCIP 4 -----------7 t RCIP 4 ------------ + 0.25 7 ns tRIP3 Input Data Position5 (tRCIP = 7.4ns) t RCIP 5 ------------ - 0.25 7 tRCIP 5 -----------7 t RCIP 5 ------------ + 0.25 7 ns tRIP2 Input Data Position6 (tRCIP = 7.4ns) t RCIP 6 ------------ - 0.25 7 tRCIP 6 -----------7 t RCIP 6 ------------ + 0.25 7 ns tRPLL Phase Lock Loop Set 10.0 ms tRCIP CLKIN Period 40.0 ns tCK12 Skew Time between RCLK1 and RCLK2 Single-in / Dual-out 7.4 0.3t RCIP ns AC Timing Diagrams TTL Outputs TTL Output 80% 80% 8pF 20% 20% TTL Output Load tTLH 7 tTHL THine Electronics, Inc. THine THC63LVD824 Rev.1.03 AC Timing Diagrams TTL Outputs tRCH CLKOUT 2.0V 2.0V tRCL R/F = L 2.0V 0.8V 0.8V R/F = H tRCP tRH tRS Rxn Gxn Bxn 2.0V 2.0V 0.8V 0.8V x = 1,2 n = 0~7 Phase Lock Loop Set Time VCC 3.0V RCLKx+/- 2.0V /PDWN tRPLL 2.0V CLKOUT 8 THine Electronics, Inc. THine THC63LVD824 Rev.1.03 Pixel Map Table for Single/Dual Link 1st Pixel Data 824 TTL Output Pin R10 2nd Pixel Data TFT Panel Data LSB 24Bit R10 824 TTL Output Pin 18Bit - R20 TFT Panel Data LSB 24Bit R20 18Bit - R11 R11 - R21 R21 - R12 R12 R10 R22 R22 R20 R13 R13 R11 R23 R23 R21 R14 R14 R12 R24 R24 R22 R15 R15 R13 R25 R25 R23 R16 R16 R14 R26 R26 R24 R17 MSB R17 R15 R27 MSB R27 R25 G10 LSB LSB G10 - G20 G20 - G11 G11 - G21 G21 - G12 G12 G10 G22 G22 G20 G13 G13 G11 G23 G23 G21 G14 G14 G12 G24 G24 G22 G15 G15 G13 G25 G25 G23 G16 G16 G14 G26 G26 G24 G17 MSB G17 G15 G27 MSB G27 G25 B10 LSB LSB B20 - B10 - B20 B11 B11 - B21 B21 - B12 B12 B10 B22 B22 B20 B13 B13 B11 B23 B23 B21 B14 B14 B12 B24 B24 B22 B15 B15 B13 B25 B25 B23 B16 B16 B14 B26 B26 B24 B17 B15 B27 B27 B25 B17 MSB 9 MSB THine Electronics, Inc. THine THC63LVD824 Rev.1.03 824 TTL Data Output Timing for Single/Dual Link Example : SXGA+(1400 x 1050) HSYNC DE CLKOUT R1x/G1x/B1x #1 #3 #5 #7 1395 #1397 #1399 R2x/G2x/B2x #2 #4 #6 #8 1396 #1398 #1400 #1 #2 n = 0~7 #1399 #1400 TFT Panel (1400 x 1050) 10 THine Electronics, Inc. THine THC63LVD824 Rev.1.03 AC Timing Diagrams LVDS Inputs tRIP2 tRIP3 tRIP4 tRIP5 tRIP6 tRIP0 tRIP1 Ryx+/- Ryx6 Ryx5 Ryx4 RCLKx+ Ryx3 Ryx2 Ryx1 Ryx0 Ryx6 Ryx5 Vdiff = 0V x = 1,2 y = A,B,C,D Ryx4 Ryx3 Ryx2 Ryx1 Vdiff = 0V tRCIP RCLK1+ Vdiff = 0V tCK12 RCLK2+ Vdiff = 0V Note: Vdiff = (Ryx+) - (Ryx-), (RCLKx+) - (RCLKx-) 11 THine Electronics, Inc. THine THC63LVD824 Rev.1.03 LVDS Data Inputs Timing Diagrams in Single Link Previous Cycle (2nd pixel data) Current Cycle (1st pixel data) RCLK1+ 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 B17 B16 B15 B14 DE'' RD1+/- B20' G21' G20' R21' R20' x G11 G10 R11 R10 x'' VSYNC HSYNC B11 12 B10 THine Electronics, Inc. THine THC63LVD824 Rev.1.03 LVDS Data Inputs Timing Diagrams in Dual Link Previous Cycle Current Cycle RCLK1+ 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 B17 B16 B15 B14 DE'' RD1+/- B10' G11' G10' R11' R10' x G11 G10 R11 R10 x'' VSYNC HSYNC B11 B10 RCLK2+ 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+/- x' B27' B26' B25' B24' x x x B27 B26 B25 B24 x'' RD2+/- B20' G21' G20' R21' R20' x B21 B20 G21 G20 R21 R20 x'' 13 THine Electronics, Inc. THine THC63LVD824 Rev.1.03 Package INDEX 100 76 PIN No.1 75 16.0SQ TYP 14.0SQ TYP 0.5TYP 0.22 51 25 50 1.2MAX 1.00 TYP 26 UNITS:mm THine Electronics, Inc. Matsuda Yaesudori Bldg. 6F 1-10-7, Hatchobori, Chuo-ku, Tokyo, 104-0032 Japan Tel: 81-3-3555-0666 Fax: 81-3-3555-0677 14 THine Electronics, Inc. THine THC63LVD824 Rev.1.03 Notes to Users: 1. The contents of this data sheet are subject to change without prior notice. 2. Circuit diagrams shown in this data sheet are examples of application. Therefore, please pay sufficient attention when designing circuits. Even if there are incorrect descriptions, we are not responsible for any problem due to them. Please note that incorrect descriptions sometimes cannot be corrected immediately if found. 3. Our copyright and know-how are included in this data sheet. Duplication of the data sheet and disclosure to other persons are strictly prohibited without our permission. 4. We are not responsible for any problems of industrial proprietorship occurring during THC63LVD824 use, except for those directly related to THC63LVD824's structure, manufacture or functions. THC63LVD824 is designed on the premise that it should be used for ordinary electronic devices. Therefore, it shall not be used for applications that require extremely high-reliability (space equipment, nuclear control equipment, medical equipment that affects people's lives, etc.). In addition, when using THC63LVD824 for traffic signals, safety devices and control/safety units in transportation equipment, etc., appropriate measures should be taken. 5. We are making the utmost effort to improve the quality and reliability of our products. However, there is a very slight possibility of failure in semiconductor devices. To avoid damage to social or official organizations, much care should be taken to provide sufficient redundancy and fail-safe design. 6. No radiation-hardened design is incorporated in THC63LVD824. 7. Judgment on whether THC63LVD824 comes under strategic products prescribed by the Foreign Exchange and Foreign Trade Control Law is the user's responsibility. 8. This technical document was provisionally created during development of THC63LVD824, so there is a possibility of differences between it and the product's final specifications. When designing circuits using THC63LVD824, be sure to refer to the final technical documents. 15 THine Electronics, Inc.