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| S6B2104 80CH SEGMENT DRIVER FOR DOT MATRIX LCD July. 2001 Ver. 0.0 Contents in this document are subject to change without notice. No part of this document may be reproduced or transmitted in any form or by any means, electronic or mechanical, for any purpose, without the express written permission of LCD Driver IC Team. Precautions for Light Light has characteristics to move electrons in the integrated circuitry of semiconductors, therefore may change the characteristics of semiconductor devices when irradiated with light. Consequently, the users of the packages which may expose chips to external light such as COB, COG, TCP and COF must consider effective methods to block out light from reaching the IC on all parts of the surface area, the top, bottom and the sides of the chip. Follow the precautions below when using the products. 1. Consider and verify the protection of penetrating light to the IC at substrate (board or glass) or product design stage. Always test and inspect products under the environment with no penetration of light. 2. 80CH SEGMENT DRIVER FOR DOT MATRIX LCD S6B2104 S6B2104 Specification Revision History Version 0.0 Original Content Date July.2001 2 80CH SEGMENT DRIVER FOR DOT MATRIX LCD S6B2104 CONTENTS INTRODUCTION ............................................................................................................................................. 1 FEATURES..................................................................................................................................................... 1 BLOCK DIAGRAM .......................................................................................................................................... 2 PIN CONFIGURATION .................................................................................................................................... 3 MAXIMUM ABSOLUTE LIMIT ......................................................................................................................... 4 ELECTRICAL CHARACTERISTICS........... ...................................................................................................... 5 PIN DESCRIPTION ......................................................................................................................................... 8 POWER DOWN FUNCTION............................................................................................................................11 3 80CH SEGMENT DRIVER FOR DOT MATRIX LCD S6B2104 INTRODUCTION The S6B2104 is a LCD driver IC which is fabricated by low power CMOS high voltage process technology. This device consists of 80 bit bi-directional shift register, 80 bit data latch and 80 bit driver. FEATURES -- -- -- -- -- Power supply voltage: +5V 10%, +3V 10% Supply voltage for display: 6 to 28V (V DD-VEE) Parallel data processing (4 bit) Applicable LCD duty: 1/64 to 1/256 Interface Drivers COM S6B0086 -- -- High voltage CMOS process 100 QFP or bare chip available SEG (cascade) Other S6B2104 1 S6B2104 80CH SEGMENT DRIVER FOR DOT MATRIX LCD BLOCK DIAGRAM V1 V3 V4 VEE 80 bit 4-Level Driver M DISPOFFB 80 bit Level Shifter CL1 80 bit Data Latch D0 D1 D2 D3 20 x 40 bit Bidirectional Register S78 S79 S80 S1 S2 S3 SHL CL2 EIB Power Down Function Shift CL VDD VSS EOB 2 80CH SEGMENT DRIVER FOR DOT MATRIX LCD S6B2104 PIN CONFIGURATION 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 72 71 70 69 68 67 66 65 64 63 62 61 60 59 58 57 56 55 54 53 52 51 SC50 SC49 SC48 SC47 SC46 SC45 SC44 SC43 SC42 SC41 SC40 SC39 SC38 SC37 SC36 SC35 SC34 SC33 SC32 SC31 SC51 SC52 SC53 SC54 SC55 SC56 SC57 SC58 SC59 SC60 SC61 SC62 SC63 SC64 SC65 SC66 SC67 SC68 SC69 SC70 SC71 SC72 SC73 SC74 SC75 SC76 SC77 SC78 SC79 SC80 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 S6B2104 (100-QFP) SC30 SC29 SC28 SC27 SC26 SC25 SC24 SC23 SC22 SC21 SC20 SC19 SC18 SC17 SC16 SC15 SC14 SC13 SC12 SC11 SC10 SC9 SC8 SC7 SC6 SC5 SC4 SC3 SC2 SC1 EOB NC VEE V4 V3 V1 NC M SISP0FFB VDD SHL VSS D3 D2 D1 D0 CL2 NC CL1 EIB 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 3 S6B2104 80CH SEGMENT DRIVER FOR DOT MATRIX LCD MAXIMUM ABSOLUTE LIMIT Characteristic Operating voltage Driver supply voltage Input voltage Operating temperature Storage temperature Symbol VDD VLCD VIN TOPR TSTG Value -0.3 - 6.0 0 - 30 -0.3 - VDD +0.3 -30 - +85 -55 - +150 C Unit V Voltage greater than above may result in damage to the circuit. VDD (V1) VDD-VEE V3 To LCD Panel S1 - S80 +V S6B2104 V4 VEE -V V1 > V3 > V4 > V V1 < VDD EE VSS 4 80CH SEGMENT DRIVER FOR DOT MATRIX LCD S6B2104 ELECTRICAL CHARACTERISTICS DC Characteristics (V DD = 2.7 to 5.5V, VSS = 0V, Ta = -30 to +85C, CL = 15pF) Characteristics Operating voltage Driver supply voltage Input voltage (1) Symbol VDD VLCD VIH VIL Output voltage (2) VOH VOL Input leakage current 1 (1) Input leakage current 2 (3) On resistance (4) Supply current IIL1 IIL2 RON ISTB IDD IOH = -0.4mA IOL = 0.4mA VIN = VDD to VSS VIN = VDD to VEE ION = 100A fCL2 = 1MHz, fCL2 = 19.2kHz, fM = 40Hz, VLCD = 26V IEE No Load VDD = 5.5V (7) 150 500 A VDD = 5.5V (5) VDD = 5.5V (6) VDD = 2.7V (6) VLCD = VDD - VEE Condition Min 2.7 6 0.8V DD 0 VDD-0.4 -1 -25 Typ 2 Max 5.5 28 0.2V DD 0.4 1 25 4 200 3 1 k A mA mA A V Unit V NOTES: 1. Applied to CL1, CL2, EIB, EOB, D0 to D3, SHL, DISPOFFB, M pin. 2. EIB, EOB pin 3. V1, V3, V4 pin 4. VDD-VEE = 26V(VDD = 3V), VEE = 28V(VDD = 5V), V1 = VDD, V3 = VDD-2/10(VDD-VEE), V4 = VEE+2/10(VDD-VEE), 5. 6. 7. S1 to S80 pin Display data pattern: 0000, Current from VDD to VSS when the display data is not processing (SHL = VSS, D0 to D3 = VSS, DISPOFFB = VDD, M = VSS) Display data pattern: 1010, Current from VDD to VSS when the display data is processing Display data pattern: 1010, Current on VEE pin 5 S6B2104 80CH SEGMENT DRIVER FOR DOT MATRIX LCD AC Characteristics (V DD = +5V 10%, VSS = 0V, Ta = -30 to + 85 C, CL = 15pF) Characteristic Clock cycle time Clock pulse width Clock rise/fall time Data set-up time Data hold time Clock set-up time1 Clock set-up time2 Clock hold time Propagation delay time Symbol tCYC tW tR/tF tDS tDH TCS1 TCS2 tCH tPHL Condition Duty = 50% EOB output EIB output EIB, EOB set-up time tPSU EOB input EIB input 30 30 Min 125 45 30 30 80 10 80 Typ Max 30 80 80 Unit ns (V DD = +3V 10%, VSS = 0V, Ta = -30 to + 85C, CL = 15pF) Characteristic Clock cycle time Clock pulse width Clock rise/fall time Data set-up time Data hold time Clock set-up time1 Clock set-up time2 Clock hold time Propagation delay time Symbol tCYC tW tR/tF tDS tDH TCS1 tCS2 tCH tPHL Condition Duty = 50% EOB output EIB output EIB, EOB set-up time tPSU EOB input EIB input 65 65 Min 250 95 50 50 80 15 120 155 155 Typ Max 30 Unit ns 6 80CH SEGMENT DRIVER FOR DOT MATRIX LCD S6B2104 Timing Characteristics tw 0.8VDD tDS D0 to D3 0.8VDD tF tw tw 0.8VDD CL2 0.2VDD 0.2VDD tDH 0.2VDD tCS1 tCS2 CL1 tCH 0.8VDD tw tR 0.2VDD tF CL2 1 2 ~ ~ 19 0.2VDD 20 0.8VDD CL1 ~ ~ tPHL ~ ~ EOB, EIB (output) EIB, EOB (input) 0.2VDD tPUS ~ ~ 7 S6B2104 80CH SEGMENT DRIVER FOR DOT MATRIX LCD PIN DESCRIPTION Table 1. Pin Description Pin No VDD (40) VSS (42) VEE (33) V1, V3, V4 (34-36) S1-S80 (1-30, 51-100) I Negative supply voltage LCD driver output voltage level LCD driver output I/O Name Function For logical circuit (+5V 10%, +3V 10%) 0V (GND) For LCD drive circuit Bias supply voltage terminals to drive the LCD. Bias voltage divided by the resistance is usually used as supply voltage source. (refer to note 1) Display data output pin which corresponds to the respective latch contents. One of V1, V3, V4 and VEE is selected as a display driving voltage source according to the combination of the latched data level and M signal (refer to note 2) I Data shift clock Clock pulse input for the 4 bit parallel shift register. The data is shifted to 80 bit shift register at the falling edge of the clock pulse. The clock pulse, which was input when the enable bit (EIB/EOB) is not active condition, is invalid. Alternate signal input pin for LCD driving. Normal frame inversion signal is input The signal for latching the shift register contents is input to this terminal. CL1 pulse "H" level initializes powerdown function block. Control input pin for display data output level (S1-S80). V1 level is output from S1-S80 terminal during "L" level input. LCD becomes non-selected by V1 level output from every output of segment drivers and every output of common drivers. EOB and EIB can be used as either input terminal or output terminal according to the condition of SHL. The shifting direction of each data, D0-D3, the I/O condition of EOB and EIB, and the condition of SHL are described in the table below. (refer to note 3). Controller Power Supply Power Interface Power Operating voltage O LCD CL2 (47) M (38) CL1 (49) I I Alternate signal for LCD driver output Data latch clock Controller Controller DISPOFFB (39) I Output level control (Display off) Controller SHL (41) I Data shift control VDD/VSS 8 80CH SEGMENT DRIVER FOR DOT MATRIX LCD S6B2104 Table 1. Pin Description (Continued) Pin No I/O Name Pin Eob, Eib (31,50) I/O EOB EIB I/O I O SHL L Function Display data shift direction D0: S1S5... S77 D1: S2S6...S78 D2: S3S7...S79 D3: S4S8...S80 EIB EOB I O H D0: 80S76...S4 D1: 79S75...S3 D2: 78S74...S2 D3: 77S73...S1 D0-D3 (43-46) S1 S2 S3 S4 Interface Description Enable input terminal of S6B2104. Enable output terminal of S6B2104. EIB is connected to next S6B2104's EOB when the S6B2104's are connected in series (cascade connection). Enable input terminal of S6B2104. Enable output terminal of S6B2104. EOB is connected to next S6B2104's EIB when the S6B2104's are connected in series (cascade connection) S73 S74 S75 S76 S77 S78 S79 S80 I EOB I L DDDD 0123 Shift DDDDDDDD 01230123 D0 Shift Direction D1 D2 Last Data D3 First Data EIB EIB O S73 S74 S75 S76 S77 S78 S79 S80 Shift DDDDDDDD 01230123 D0 D1 D2 Last Data D3 Shift Direction First Data S1 S2 S3 S4 DDDD 0123 I H EOB O Controller Display data Display data input pins for 4 bit parallel shift register and it is input synchronized with the clock pulse. The combination of D0-D3 level, M input signal, display data output level and the display on the LCD panel is described on the table below. (DISPOFFB = H) D0-D3 L H L H M L L H H Display Data Output Level V3 V1 V4 VEE Display on the LCD OFF ON OFF ON 9 S6B2104 80CH SEGMENT DRIVER FOR DOT MATRIX LCD NOTES: 1. VDD C C C C C C R V2 (to S6B0103) R V3 R V4 R V5 (to S6B0103) VEE S1 - S80 To LCD Panel V1 VDD S6B2104 VSS V1, V EE V3, V4 Selected Level Nonselected Level n = 5 (1/64 duty) to 13 (1/256 duty) 2. M L L H H X "X" is don't care. Latched Data L H L H X DISPOFFB H H H H L Output level (S1 - S80) V3 V1 V4 VEE V1 3. - EOB and EIB pins works as input terminals. ENABLE F/F stops display data at "H" level input. ENABLE F/F starts display data at "L" level input. - EOB and EIB pins work as output terminals. These terminals are set to the "H" level immediately after ENABLE F/F is initialized by the load pulse. Upon completion of 80-bit serial/parallel conversion using the shift clock input from the CL2 terminal, these terminals are then set to the "L" level. - The operation of ENABLE F/F is terminated and held unchanged until the next load pulse is detected. (For cascade connection, refer to the application circuit drawing) 10 80CH SEGMENT DRIVER FOR DOT MATRIX LCD S6B2104 POWER DOWN FUNCTION In order to reduce the power consumption, in case of cascade connection, S6B2104 has a "power down function". EIB Enable input Enable Disable EOB Enable output L H EOB of Nth driver is connected to EIB of (N+1)th driver S6B2104 CL1 ~ ~ ~ ~ ~ ~ 1 CL2 ~~~ ~~~ ~~ ~~ ~~ ~~ 1st EIB (input) 1st EOB (output) ~ ~ ~ ~ Shift CL2 ~~ ~~ ~ ~ ~ ~ 2nd EIB (input) ~ ~ ~ ~ 2nd EOB (output) 1 Shift CL2 ~ ~ ~ ~ ~ ~ 2 19 20 2 19 20 1 2 19 20 20 SHL = H (EIB = Input, EOB = Output) First S6B2104's EOB should be connected to second S6B2104's EIB. 11 S6B2104 80CH SEGMENT DRIVER FOR DOT MATRIX LCD Timing Chart - 1/200 Duty, 1/15 Bias 200 CL1 1 2 200 1 2 200 1 2 Latched Data M M CL1 D0 - D3 CL2 Latched Data 200 CL1 2 200 1 2 200 1 2 Latched Data L H L L H L L H L M V2 V3 V4 V5 VEE (V6) V1 = V DD V4 = V DD-8/10VL C D V2 = V DD-1/10VL C D V5 = V DD-9/10VL C D V3 = V DD-2/10VL C D VL C D = VDD VEE 12 |
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