SHARP [SPEC No. | CT978181 | ISSUE: Aug 18 1997 PRELIMINARY SPECIFICATIONS Product Type Timing IC for Two-power supply 270K/320K pixels B/ CCD Wodel No. LR38580 This specifications contains 31 pages including the cover and appendix If you have any objections, please contact us before issuing purchasing order. CUSTOMERS ACCEPTANCE DATE: BY: PRESENTED BY: Le Msacor K. Misawa Dept. General Manager REVIEWED BY: PREPARED BY: A Tokune 5, Snoue Engineering Dept. 3 IC Development Center Tenri Integrated Circuits Group SHARP CORPORATIONSHARP LR38580 | LR38580 @ Handle this document carefully for it contains material protected by international copyright law. Any reproduction, full or in part, of this material is prohibited without the express written permission of the company. @ When using the products covered herein, please observe the conditions written herein and the precautions outlined in the following paragraphs. In no event shall the company be liable for any damages resulting from failure to strictly adhere to these conditions and precautions. (1) The products covered herein are designed and manufactured for the following application areas. When using the products covered herein for the equipment listed in Paragraph (2), even for the following application areas, be sure to observe the precautions given in Paragraph (2). Never use the products for the equipment listed in Paragraph (3) Office electronics *Instrumentation and measuring equipment Machine tools *Audiovisual equipment Home appliances Communication equipment other than for trunk lines (2) Those contemplating using the products covered herein for the following equipment which demands high reliability, should first contact a sales representative of the company and then accept responsibility for incorporating into the design fail-safe operation, redundancy, and other appropriate measures for ensuring reliability and safety of -the equipment and the overall system. Control and safety devices for airplanes, trains, automobiles, and other transportation equipment Mainframe computers *Traffic control systems *Gas leak detectors and automatic cutoff devices Rescue and security equipment Other safety devices and safety equipment, etc. (3) Do not use the products covered herein for the following equipment which demands extremely high performance in terms of functionality, reliability, or accuracy. . Aerospace equipment Communications equipment for trunk lines Control equipment for the nuclear power industry *Medical equipment related to life support, etc. (4). Please direct all queries and comments regarding the interpretation of the above three Paragraphs to a sales representative of the company. @ Please direct all queries regarding the products covered herein to a sales representative of the company.SHARP LR38580 1 CONTENTS 1. General =-__ ss te renee eeceeee ecescseses ee 1-1. Features {-2. Functions 2. Pin Assignment Come ever cecercereeesecscene 3. Block Diagram errr er ec rere eeveceseesceee A. Pin Description =_reeerenseccccervccccerenes 4-1. Pin description 4-2. Supplementary explanation 5. Electrical Characteristics +++> eee eeereccavecens 5-1. Absolute Maximum Ratings 5-2. DC Characteristics 6. Pulse Timing = = rveeere see caceeccececcere 6-1. Syncronous vertical pulse -2. Vertical pulse for driving CCD -3. Syncronous horizontal pulse 6-4. Horizontal pulse for driving CCD 6-5. Readout pulse 7. Package Outline ce eeesescnes sca seccsccevace | LR38580 P.2 P. 10 P. 11 P. 29SHARP LR38580 2 1. General The x * * MH MH MH MH | LR38580 LR388580 is a CMOS gate array LSI. It generates timing pulses for driving a Two-power operation CCD area sensor which has 270, 000 or 320,000 pixels, synchronous pulse for TV signals and processing for video signals. 1-1. Features The package material is plastic. A p-type silicon circuit board is used. The package type is 48-pin QFP x The process (structure) is CMOS. * The delay time per 1 gate is 0. 5ns. * Not designed or rated as radiation hardened. 1-2. Functions Designed for Two-power operation CCD monochrome area sensor with 276, 000 or 320, 000 pixels Switchable between EIA and CCIR mode. Included the level-shifter for Readout and Shutter pulses. +5V and +12.5V power supply. Electronic shutter and EE control is sossible. To select the following max. shutter speed is possible about 1/101, 000s , 1/56, 000 and 1/32, 000s To select the following start shutter speed is possible about 1/101, 000s and 1/1, 100s. Mirror image control function is possible.SHARP LR388580 3 | LR38580 2. Pin Assignment PIN NO. 1/0 SIGNAL PIN NO. I/O SIGNAL 1 IcD TSTI 25 OSCI OSCI 2 Icu EEST 26 OSC3M OSCO 3 ON WIND 27 IcD TST5 4 Icsu VR I 28 1cu TVMD 5 CD TST2 29 Icu ACLX 6 CD TST3 30 - V DOD 7 - GN D 381 - GND 8 _ VDD 382 0 H D 9 0 CSYN 33 0 Vv D 10 0 CBLK 384 ICU EEMD 11 oO OBCP 35 Ic EEUD 12 O HBLK 36 Ic EENR 13 Icu FLMD 387 ICU SMAX 14 ICU MIR 38 O4MA2 F S 15 - VDD 39 O4MA2 FCDS 16 O4MA2 V 1 40 Icu STSL 17 O4MA2 Vv 2 41 O4MA8 F R 18 O4MA2 V 3 42 O4MA2 FH2B 19 O4MA2 Vv 4 43 O4MA8 F H 2 20 ICD TST4 44 - V DD 21 - GND 45 O4MA8 FH 1 22 |jO12MHV V TG 46 O4MA2 FHI1B 23 _ VDD12 AT IcD TST6 24 |O12MHV O F D 48 ~ GND IC : Input CCMOS Level) I1cU : Input CCMOS level with pull-up resister) ICD : Input (CMOS level with pull-down resister) IcSU : Input CCMOS schmitt-trigger level with pull-up resister) 0 : Output CVDD=5V) O4MA2 ~ : Output CVDD=5V) O4MA8 : Output CVDD=5V) O12MHV : Output (VDD12=12. 5V) ON : QutputC(N-ch open drain) OSCI : Input pin for oscillation OSC3M_ : Output pin for oscillationSHARP LR38580 4 SMAX FS FCDS STSL FR FHeB FHe VOD FH1 FH1B TST6 GND 3. Block Diagram EEUD () EEMD (8) vD (8) TVMD (%) TSTS osco | LR88580 OFD vDDte H/i. Judge VTG H Countere2 : Decoder H Countert V Counter EEST (73) WIND (w) N ke wn E = = > on a oO o OBCP (5) HBLK (#5) GND TST4 V4 V3SHARP LR38580 5 | LR388580 4. Pin Description 4-|. Pin description No.| Symbol | 1/0 Pol. Pin Name Description 1| TST1 | ICD} | Test terminal 1} A test pin. Set open or to L level in the normal mode, 21 EEST | ICU] | Electronic An input pin to control Electronic Exposure, Exposure with using EEUD(pin 35) and EENR(pin 36). control L level : Electronic Exposure is stopped. H level or open : Electronic Exposure is operated 3] WIND | ON | [| | Window pulse An output pin for window pulse. FLMD EEMD WIND N-ch L L Open H L WIND] (vertical pulse) Drain L H H H WIND2 Ccomposit pulse) WIND] ; When connected to EEST(pin 2), the operation of Electronic Exposure can be stopped at the upper side of monitor. WIND2 ; A pulse that pick out the center of CCD output. At this time, set H level or open at EEST (pin 2). As the output circuit of WIND is N-ch open drain, to be connected to VDD with R(247k9). 4} VRI IcSu | Vertical An input pin for resetting internal Ver. counter. reset input The input pulse is VSYNC. (Negative polarity) 5 | TST2 | ICD} | Test terminal 2) A test pin. Set open or to L level in the normal mode. 6 | TST3 | ICD] | Test terminal 3) A test pin. Set open or to L level in the normal mode. 7] GND - Ground A grounding pin. 8 | VDD | Power supply Supply +5 V power. 91 CSYN I | Composite An output pin of composite sync, signal pulse. syncronizing pulse 10} CBLK 0 |IL | Composite An output pin of composite blanking pulse. blanking pulse 11 | OBCP 0 | JL | Optical A pulse to clamp the optical black signal. black clamp This pulse stays low during the absence of pulse effective pixels within the ver. blanking 12 | HBLK 0 | U | Hor. blanking | A pulse that correspondes to the cease period of pulse the Hor. transfer pulse.SHARP LR388580 6 | LR388580 No.| Symbol | I/0 Pol. Pin Name Description 13 | FLMD | ICU {| | Electronic An input pin to control Electoronic Exposure mode, Exposure and Flickerless mode and WIND(pin3) pulse output. WIND pulse FLMD | EEMD | Elecioronic Shutter mode | WIND control 1 L L | OFF;1/ 60s CCCIR:1/ 50s) | WIND1 H L 1/100s CCCIR;1/120s) WIND1 YL H E/E operation WINDI H H E/E operation WIND2 14) MIR ICU | | Mirror mode An input pin to select Mirror image mode or Normal select L level : Normal image mode H level or open : Mirror image mode MIR L H or open (Normal mode) (Mirror mode) FHIB =FH1 SFH2 FH2B =FH2 SFH1 15) VDD ~ | | Power supply Supply +5 V power. 16; Vi OAMA2 If | Ver. transfer | A pulse to drive vertical CCD shiftregister. pulse 1 Connect to #V1 17} V2 DAMA If | Ver. transfer | A pulse to drive vertical CCD shiftregister. pulse 2 Connect to V2 18 | 3 OAMA2 [| | Ver. transfer | A pulse to drive vertical CCD shiftregister. pulse 3 Connect to V3 19] V4 OAMA2 [] | Ver. transfer | A pulse to drive vertical CCD shiftregister. pulse 4 Connect to 4V4 20} TST4 | ICD] | Test terminal 4) A test pin. Set open or to L level in the normal mode. 21! GND - | | Ground A grounding pin. 22 | VIG 012M [L. | Read out A pulse that transfers the charge of the photo- HV pulse diode to the vertical sift resister Connect to the VIG pin of CCD. 23 | VDD12] - | | Power supply Supply +12.5 V power 24 | OFD 012M {lL | OFG pulse A pulse that sweeps the charge of the photodiode HV for electronic shutter. Connect to OFD of CCD | Held at L level at normal mode 25} OSCI | OSCI] | Clock input An input pin for reference clock oscillation. Connect to OSCO(pin 26) with R. The frequencies are as follows: at EIA mode: 19. 0699MHz (1212FH) at CCIR mode : 19.3125MHz (1236fH) fH=Hor. frequency 26 | OSCO } OSC | | Clock output An output pin for reference clock oscillation. 3M The output is the inverse OSCI(pin 25). 27} TST5 | ICD] | Test terminal 5 A test pin. Set open or to L level in the normal mode. 28 | TVMD | ICU} | TV mode select | An input pin to select TV standards. L level ; NTSC mode H level or open: PAL modeSHARP LR38580 7 | LR38580 No.] Symbol | 1/0 Pol. Pin Name Description 29 | ACLX | ICU} | All clear input] An input pin for resetting all internal circuit at power on. 30 | VDD - | ~ | Power supply Supply +5 V power. 31 | GND - | | Ground A grounding pin 32 | HD 0 |{L.| Hor. drive The pulse occurs at the start of every lines. pulse 33] VD O |f1| Ver. drive The pulse occurs at the start of every fields. pulse 34} EEMD | ICU] | Electronic An input pin to control Electoronic Exposure mode, Exposure and Flickerless mode and WIND(pin3) pulse output WIND pulse using with FLMD(pin13). control 2 35; EEUD | IC | | Electronic An input pin to control Electronic Exposure. Exposure control 1 EEUD EENR Shutter speed 36 | EENR | IC | | Electronic H L up Exposure H H control stopped control 2 L H down 37 | SMAX | ICU} | Shutter speed | An input pin to control max. and initial shutter control input | peed with STSL(pin 40). SMAX | STSL} max. speed | initial speed H H s1/ 32, 000 S1/ 1,000 L H =1/ 56, 000 =1/ 1,000 H L = 1/101, 000 =1/ 1, 000 L L = 1/101, 000 = 1/101, 000 38) FS OA4MA2 [1 | CDS pulse 2 A pulse to sample-hold the signal from CCD. 39 | FCDS 04MAq {1 | CDS pulse 1 A pulse to clamp the feed-through level from CCD. 40; STSL | ICU} | Shutter speed | An input pin to control max. and initial shutter control input ] speed with SMAX(pin 37) SMAX | STSL| max. speed | initial speed H H =1/ 32, 000 =1/ 1,000 L H =1/ 56, 000 =1/ 1,000 H L = 1/101, 000 Sl/ 1,000 L L = 1/101, 000 + 1/101, 000 41 | FR O4MA3! [| Reset pulse A pulse to reset the charge of output circuit. Connect to 6R of CCD through the D.C. offset circuit. 42 | FH2B 4MA2 |[| | Hor. transfer | A pulse to drive horizontal CCD shiftregister. pulse 2B Connect to H2B of CCD 43 | FH2 04MA3) [lj Hor. transfer | A pulse to drive horizontal CCD shiftregister. pulse 2 Connect to 6H2 of CCD. 44] VDD - | Power supply Supply +5 V power 45 | FH! 4MA3 [I[ | Hor. transfer |A pulse to drive horizontal CCD shiftregister. pulse 1 Connect to 4H1 of CCD.SHARP LR38580 8 | LR388580 No.| Symbol | I/0 Pol. Pin Name Description 46 | FHIB O4MA% [lj | Hor. transfer | A pulse to drive horizontal CCD shiftregister. pulse 1B Connect to H1B of CCD. 47 | TST6 ICD | | Test terminal 6 A test pin. Set open or to L level in the normal mode. 48 | GND - | | Ground A grounding pin.SHARP LR38580 9 4-2. Supplementary explanation 4-2-1. Shutter speed changes at Electronic Exposure control mode. | LR388580 4-2-2. Select max. shutter speed and initial shutter speed. EIA CCIR No. Charge time shutter speed No.| Charge time shutter speed 0 262H or 263H =1/ 60s 312H or 313H s1/ 50s 1 252H+4 s1/ 62s 1 302H+ 8 s1/ 52s > | (by LOH step) > | (by 10H step) 19 72H+a =1/ 220s 24 T2H+ =1/ 220s > | (by 4H step) * | (by 4H step) 30 28H+a &1/ 555s 35 28H+$ =1/ 550s + | (by 2H step) * | (by 2H step) 37 14H+a s1/ 1,100s 42 14H+8 51/ 1,090s + | (by 1H step) + 1 (by 1H step) 44 TH+a 1/2, 140s 49 TH+8 s1/ 2,125s + | (by 0. 5H step) + | (by 0. 5H step) 50 AH+a =1/ 3,610s 50 | AH+ 8 51/ 3,590s > | (by 0. 25H step) * | Coy 0. 25H step) 62 1H+a #1/ 11,570s 67 1H+ 51/ 11, 550s * | (by 0. 125H step) + | Coy 0. 125H step) 69 0. 125H+a S1/ 32, 450s 74 0. 125H+ 3 #1/ 32, 690s 70 0. 280H =1/ 56, 090s 75 0. 275H 51/ 56, 800s Tl 0. 155H =1/101, 430s 76 0. 152H 51/102, 720s a=Q. 360H =0. 353H SMAX | STSL max. shutter speed (s) initial shutter speed (s) pin37 | pind0 Step EIA Step CCIR Step EIA tep CCIR Hi H 69 | S1/ 32,450} 74] 51/ 32,6901 37] st/ 1.100137] 51/ 1,090 L H 70 | =l/ 56,090 | 75 | 31/ 56,800 137) =1/ 1,100} 37! 51/ 1,090 H L 71 | 31/101, 430 | 76 | 41/102, 720137) =1/ 1,100] 37) s1/ 1,090 L L 71 | 51/101, 430 | 76 | =1/102, 720 | 76 | s1/101, 430 | 76 | 51/102, 720SHARP LR38580 10 LR38580 5. Electorical Characteristics 5-1. Absolute Maximum Ratings Parameter Symbol Rating Unit Supply voltage VDD -0. 3 ~ 6. 0 Vv Supply voltage VDD12 -~0. 3 ~ 15. 0 Vv Input voltage Vi -Q0. 3 ~ VWDDn+0. 3 V Output voltage Vo -0. 3 ~~ YDDn+0O0. 8 Vv Operation temperature | Top: -20 ~ +70 C Storage tempetature T sta -55 ~ +150 C 5-2. DC Characteristics CVDD=+5V10%, VDD12=+12. 5V40.5V, Toor =-20~+70T) Parameter Symbol Condition MIN. TYP. MAX. WnitNote Input Low voltage Viet 15 7Vqdoi1 Input High voltage Vion 3.5 Vv Input "Low voltage Vi 3.7 | Vi 2 Input High voltage Vi; 1.0 Vv Hysterisis voltage Vri-Ve- 0.2 Vv Input "Low current [lil] Vi = OV 2.0 ju A; 3 Input "High current | |Iuni|] | Vi = VDD 2.0 ju A Input "Low" current lTrel| Vi = 0V 2.0 [uw Al 4 Input High current }| | Ire] | Vi VDD 8.0 60 Ju A Input Low current lTars]} Vi = 0Vv 8.0 60 ju A} 5 Input High current | |Tiu3l] Vio = VDD 2.0 JuA Output High voltage} Vow lon = 2mA 4.0 Vi 6 Output Low voltage Vou lo. = AmA . 0.4 | V Output "High voltage; Voue lou = -38mA 4.0 Vi 7 Output Low voltage Voz loi = 3gmA 0.4 7, V Output "High voltage V ong lou = 6mA 4.0 Vv 8 Output Low voltage Vous Tot = 8m A 0.4 | V Output "High" voltage | Von, lou = 9mA 4.0 Vi 9 Output "Low" voltage Vora Toi = i2mA 0.4 | V Output High voltage} Vous Ton = 12mA} 12.0 Vv | 10 Output "Low" voltage Vows Tor. = 12mA 0.5 |1V Output Low voltage Vots lor = AmA 0.4 7 V4 11 Leak output current | loz | High-Z 1.0 jwA Note] : Applied to Inputs(IC, ICD, ICU, OSCI). Note2 : Applied to Input (ICSU) Note3 : Applied to Inputs(IC, 0SCI). Note4 : Applied to Inputs(ICD). Note5 =: Applied to Inputs(CICU, ICSU). Note6 _: Applied to (OQ). Note 7. : Applied to COSC3M). (Output (OSC3M) measures on conditions that input(0SCI) level is OV or VDD.) Note8 =: Applied to Output (O4MA2). Note9 : Applied to Output (O4MA3). Note1 Q : Applied to Output (012MHV). Note 1 1 : Applied to Output (ON).LR38580 11 SHARP LR388580 LEE QEE GEE VEE EEE GEE TEE OEE BZE BCE LZE IGE GCE HE Ese C2E Tee OE STE Ble LTE OTE STE HIE ELE SLE TIE OTE GOE BOE PIotd bt cH Il 0. 6 8 9 & F & ZB CE G29 29 G29 229 1Z9 PIOba eH TH Wd (Z) astnd [eo1119a snouorDUAg GZ be 22 IG 02 GL BI LI OL SE vl gt at 88Z LBZ 98Z GZ P&Z E8Z ZBZ IBZ OBZ GLZ BLZ LLZ GLZ CLS HLS ELS BLZ TLZ OLZ 69Z 89Z LOZ 99% G9Z PIS E9Z ZZ 19Z 09 BGz : : : : i : : * au PI9td NGAa i J] M1dH ! 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DETAIL A n Ny o Oo H H| I . ~ wo) oF = PKG. BASE PLANE Sy | | ul Hl = 7 \O~10 5 , { / $ | 0.5 BR Y-Kfeb | TIN-LEAD 4 = 79Ato) Ay yPABTRL AI eSERpbOLTS. NAME : QFP48-P-0707 | LEAD FINISH | PLATING | NOTE Plastic body dimensions do not include burr Riis of resin. DRAWING NO. AA1035 | UNIT mm