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| EK7307 Objective DATA SHEET www..com ON C EN ID F L IA T Eureka Microelectronics, Inc. www..com EK7307 OBJECTIVE DATA SHEET 240-Output TFT Gate Driver IC 6F, NO.12, INNOVATION 1ST. RD., SCIENCE-BASED INDUSTRIAL PARK, HSIN-CHU CITY, TAIWAN, R.O.C. TEL 886-3-5799255 FAX 886-3-5799253 ON C EN ID F L IA T EUREKA DESCRIPTION The EK7307 is a 240-output TFT gate driver IC suitable for driving large/medium scale of TFT LCD panels. The special, COG and COF compatible, pad layout allows direct mounting on the glass. The logic inputs, the logic www..com Objective-EK7307 240- Output TFT Gate Driver IC FEATURES Output channels: Driver operating frequency: LCD supply voltage: Driver output levels: Driver "L" level is changeable Incorporates bi-directional shift register. Supports multi chip operation via output pins. Pulse width modulation function. COG and COF compatible pad layout Power and logic I/O pins on both sides Through Chip connection 240 outputs max. 1.2MHz max. VEE+43V two outputs and the power supply pins are available on both sides and suitable for connecting multiple chips using the on chip connection as signal path. BLOCK DIAGRAM OUT1 OUT240 VGH VGL VEE High voltage output and level shifters VDD V SS Low voltage logic and IO OE STV1 STV2 CPV LR Fig. 1 Block diagram ON C EN ID F L IA T -1- Rev 0.1 Oct.17.2002 EUREKA PINNING INFORMATION Table 1. Pad description PAD Nr. 53 to 292 13 to 18, 327 to 332 7 t0 12, www..com 333 to 338, 346 to 349, 467 to 470 31 to 33, 38 to 41, 304 to 307 312 to 314 25 to 27 318 to 320 28 to 30 315 to 317 34 to 37 308 to 311 42 to 45 300 to 303 1 to 6 339 to 344 350 to 355 461 to 466 19 to 24 321 to 326 356 to 361 455 to 460 SYMBOL OUT1 - OUT240 VGL VEE VSS LR STV1 STV2 CPV OE I/O Start pulse input and output I I/O O Function TFT gate driver output Supply Supply Supply Shift direction selection signal Objective -EK7307 DESCRIPTION Under the control of the shift register data, OE, and STV1 or STV2, the driver outputs are VGH or VGL and change their value at the rising edge of CPV Power supply for TFT driver output low level Negative power supply for Level shifters. Chip ground Logic ground, Reference of the voltages LR = "H" : OUT1 LR = "L" : OUT240 OUT240 (Shift left) OUT1 (Shift right) STV1 STV2 I I LR = "H" Input Output LR = "L" Output Input Shift register clock The start pulse is sampled at the rising edge of CPV, input The carry pulse changes at the falling edge of CPV. Negative active When OE = "H" then the outputs are set to V GL independent of the input pin register data. This function is not synchronized with CPV. Supply Logic positive power VDD VGH Supply High voltage power and TFT driver output high level ON C -2- EN ID F L IA T Rev 0.1 Oct.17.2002 EUREKA FUNCTIONAL DESCRIPTION Power supplies The TFT gate driver pins are either VGL or VGH. VG H Objective -EK7307 The TFT voltage, VGL and VEE, relative to the logic ground, can be a negative voltage value. www..com VDD VS S VG L VE E Fig. 2 Relative position of the different supply voltages Shift direction The input signals OE and the shift data control the value of the outputs (OUT1 till OUT240). Their value can be either VGH or VGL. The signal LR controls the shift direction of the shift register. The shift register takes its value from one of the input/output pins STV at the rising edge of the clock CPV and shifts the value to the other input/output pin STV where it is presented at the falling edge of CPV. Table 2. LR shift direction relation LR Start pulse taken from: LR="H" STV1 LR="L" STV2 Data shift direction OUT1 OUT240 OUT240 OUT1 Output pulse given at: STV2 STV1 ON C -3- EN ID F L IA T Rev 0.1 Oct.17.2002 EUREKA OE function not synchronized with CPV. Objective -EK7307 When the OE input is "H" than the outputs are driven to V GL regardless of the contents of the shift register. This function is 1 2 3 4 5 238 239 240 241 CPV www..com STV1 OE OUT1 OUT2 OUT3 OUT4 OUT240 STV2 Fig. 3 OE Functionality LR="H" 1 2 3 4 5 238 239 240 241 CPV STV2 OE OUT240 OUT239 OUT238 OUT237 OUT1 STV1 Fig. 4 OE Functionality LR= "L" ON C EN ID F L IA T -4- Rev 0.1 Oct.17.2002 EUREKA CIRCUIT DIAGRAMS Input/Output Circuit VGH VD D Objective -EK7307 I www..com To Internal Circuit VEE VSS (Applicable pins) LR, C P V , O E Fig. 5 Input Circuit To Internal Circuit VG H VD D Output Signal I/O Control Signal VE E VS S (Applicable pins) STV1, STV2 Fig. 6 Input/Output Circuit V GH VGH Control Signal 1 O Control Signal 2 VEE (Applicable pins) O U T 1 to OUT240 VEE VGL V EE V EE Fig. 7 TFT driver circuit ON C EN ID F L IA T -5- Rev 0.1 Oct.17.2002 EUREKA PRECAUTIONS Precaution when connecting or disconnecting the power supply Objective -EK7307 This IC has a high-voltage LCD driver, so it may be permanently damaged by a high current which may flow, if voltage is supplied to the LCD driver power supply while the logic system power supply is floating. The detail is as follows. When connecting the power supply, connect the LCD drive power after connecting the logic system power. Furthermore, when disconnecting the power, disconnect the logic system power after disconnecting the LCD drive power. www..com ABSOLUTE MAXIMUM RATINGS Table 3. Absolute maximum Ratings In accordance with the Absolute Maximum Ratings System (IEC 134); See notes 1 and 2 Parameter Symbol Applicable Pins Ratings Supply voltage(1) VDD VDD VSS -0.3 to VSS+7.0 VGH VGH VEE -0.3 to VEE+45.0 VEE VEE VGH -45 to VGH+0.3 VEE -0.3 to VGH+0.3 Supply voltage(2) VGL VGL VEE -0.3 to VEE+7 VDD VDD VEE -0.3 to VEE+45.0 VSS VEE -0.3 to VGH+0.3 VSS VSS -0.3 to VDD+0.3 Input voltage VI OE, STV1 STV2, LR, CPV VEE -0.3 to VGH+0.3 Storage temperature Tstg -45 to +125 Notes: 1. Stress above those listed under Absolute Maximum Ratings may cause permanent damage to the device 2. Parameters are valid over operating temperature range unless otherwise specified. Unit V V V V V V V Notes 1, 2 RECOMMENDED OPERATING CONDITIONS Table 4. Recommended operating conditions Parameter Supply voltage(1) Supply voltage(2) Supply voltage(3) Supply voltage(4) Operating temperature Notes: 1. All voltages are with respect to VSS unless otherwise noted (0 V). 2. Ensure that voltages are set such that VEEVSS -6- EN ID F L IA T Rev 0.1 Oct.17.2002 EUREKA ELECTRICAL CHARACTERISTICS Objective -EK7307 Table 1. DC Characteristics (VSS=0 V, VDD=+2.5V to +5.5V, VGH=+15.0 to +42.0 V, TOPR=-20 to +75 ) Applicable Parameter Symbol Conditions pins fCPV=15.7kHz fSTV=60Hz VDD=3.3V VDD Operating Supply Current IDD VEE=-15V VGH=15V www..com Output with no load Operating Supply Current IGH VGH Standby VDD=3.3V Standby quiescent IDS VDD Supply Current VEE=-15V VGG=15V Standby quiescent IGS VGH Supply Current Input pin H input voltage L input voltage Input leakage current H input voltage L input voltage H output voltage L output voltage Input leakage current VIH1 VIL1 VLI1 VIH3 VIL3 VOH VOL VLI2 IO = -100 A IO = 100 A Liquid crystal driving voltage input pin Out1 ~ Out240 = High VGL -100 100 A STV1, STV2 LR, CPV, OE Input/Output pin 0.8xVDD VDD 0.2xVDD VDD-0.4 0.4 V V V V Min. Typ. Max. Unit Note 800 A 300 600 100 A A A 0.8xVDD 0 -10 VDD 0.2xVDD 10 V V A Liquid crystal driving voltage output pin Output leakage current VLO1 RONVGH Output ON resistance RONVGL VGH=15V VEE=-15V VOM=VGH-0.5V VOM is OUT1~OUT240 VGH=15V VEE=-15V VGL=-10v VOM=VGL+0.5V VOM is OUT1~OUT240 -50 600 OUT1 to OUT240 600 1000 50 1000 A ON C -7- EN ID F L IA T Rev 0.1 Oct.17.2002 EUREKA Table 6. AC Characteristics (VSS= 0 V, VDD=+2.5V to +5.5V, VGH-VEE=+30.0 to +42.0 V, TOPR=-20 to +75 ) Parameter Symbol Conditions Clock period Pulse width of clock H level Pulse width of clock L level STV data set up time www..com STV Objective -EK7307 Min. 833 350 350 50 350 Typ. Max. Unit ns ns ns ns ns tCPV tWH tWL tSU tH tpd1 tpd2 CL=50pF CL=300pF data hold time STV output delay time OUT 1 to 240 output delay time 300 800 ns ns Timing Chart tWL tWH 80% 20% tSU 80% 20% tH 80% 20% t CPV CPV 20% 50% 50% STV input tpd1 tpd1 60% 40% STV output tpd2 OUT1 to OUT240 60% 40% OE 80% 20% tpd2 tpd2 OUT1 to OUT240 60% 40% Fig. 8 Timing ON C -8- EN ID F L IA T Rev 0.1 Oct.17.2002 EUREKA DEFINITIONS Objective -EK7307 Data Sheet status Objective specification This data sheet contains target or goal specification for product development. Preliminary specification This data sheet contains preliminary data; supplementary data may be published later. Product specification This data sheet contains final product specification. Application information Where application information is given, it is advisory and does not form part of the specification. LIFE SUPPORT APPLICATIONS www..com These products are not designed for use in life support appliances, devices, or systems where malfunction of these products can reasonably be expected to result in personal injury. Eureka customers using or selling these products for use in such applications do so at their own risk and agree to fully indemnify Eureka for any damages resulting from such improper use or sale. ON C -9- EN ID F L IA T Rev 0.1 Oct.17.2002 |
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