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| for video equipment sdb00053bem 1 MN3111H vertical driver lsi for video camera ccd area image sensor pin assignment overview the MN3111H is a vertical driver lsi for a two-dimen- sional interline ccd image sensor. it features a built-in power supply circuit that, in conjunction with such external components as four booster capacitors, six volt- age stabilization capacitors, eight schottky barrier diodes, and two zener diodes, produces stabilized +15.0v and ?0.0v power supplies from a +5.0v input and hd pulses. features single 5 volt power supply applications video cameras qfh048-p-0707 (top view) ov ee c3+ gnd c2 � c3 � c2+ c1+ c1 � v cc1 c4+ ov dd hd v ee v hh osub v l2 v l1 ov1 v m13 ov3 ov2 v m24 ov4 v h v dd v cc2 iv2 iv4 sense1 v out+ n.c. v in+ cap3 cap2 cap1 test isub ch1 iv1 iv3 ch2 sense2 v out � v in � gnd n.c. n.c. c4 � 1 2 3 4 5 6 7 8 9 10 11 12 24 23 22 21 20 19 18 17 16 15 14 13 37 38 39 40 41 42 43 44 45 46 47 48 36 35 34 33 32 31 30 29 28 27 26 25
MN3111H for video equipment 2 block diagram v out � ov ee vl2 v ee isub iv1 gnd ch1 iv3 ch2 sense2 33 36 37 39 38 40 41 42 v in � 44 43 8 3 1 gnd 7 c1 � 4 c1+ 6 c2 � 5 c2+ 2 c3 � 48 c3+ 10 c4 � c4+ 9 v cc1 11 ov dd v hh 32 34 35 osub 31 v l1 30 ov1 29 v m13 28 ov3 27 ov2 26 25 v m24 ov4 v h 45 cap2 cap1 v out+ v in+ v dd v cc2 iv2 iv4 hd sense1 cap3 23 24 22 21 20 19 17 16 15 14 12 test 13 negative and positive boosting voltage generator negative voltage monitor positive voltage monitor tristate driver tristate driver for video equipment MN3111H 3 pin descriptions pin no. symbol pin name i/o function description 9v cc1 "h" level power supply i "h" level input for 5 volt circuits 23 v cc2 for input block 3 gnd "l" level power supply i "l" level input for 5 volt circuits 45 for input block 25 v h "h" level power supply i "h" level input for high-voltage circuits for vertical driver 35 v hh "h" level power supply i "h" level input for high-voltage circuits for sub driver 30 v m13 "m" level power supply i "m" level input for high-voltage circuits 27 v m24 for vertical driver 32 v l1 "l" level power supply i "l" level input for high-voltage circuits for vertical driver 33 v l2 "l" level power supply i "l" level input for high-voltage circuits for sub driver 24 v dd driver power supply 1 i "h" level for high-voltage circuits 36 v ee driver power supply 2 i "l" level for high-voltage circuits 17 v in+ voltage input for positive i voltage input pin for positive voltage voltage monitor monitor 44 v in � voltage input for negative i voltage input pin for negative voltage voltage monitor monitor 13 test test input i test pin (keep this pin at "h" level.) 12 hd hd pulse input i hd pulse input pin 22 iv2 transfer pulse input i charge transfer pulse input pin 21 iv4 transfer pulse input i charge transfer pulse input pin 39 iv1 transfer pulse input i charge transfer pulse input pin 40 iv3 transfer pulse input i charge transfer pulse input pin 38 ch1 charge pulse input i charge readout pulse input pin 41 ch2 charge pulse input i charge readout pulse input pin 37 isub sub pulse input i unwanted charge rejection pulse input pin 20 sense1 positive voltage monitor i positive voltage monitor control sensing sensing input pin (leave this pin open.) 42 sense2 negative voltage monitor i negative voltage monitor control sensing sensing input pin (leave this pin open.) 7 c1+ c1 connection o booster block voltage charging capacitor 8c1 � connection pins 6 c2+ c2 connection o booster block voltage charging capacitor 4c2 � connection pins 2 c3+ c3 connection o booster block voltage charging capacitor 5 c3 � connection pins 10 c4+ c4 connection o booster block voltage charging capacitor 48 c4 � connection pins MN3111H for video equipment 4 pin descriptions (continued) pin no. symbol pin name i/o function description 11 ov dd booster block positive o booster block positive voltage voltage output output pin 1ov ee booster block negative o booster block negative voltage voltage output output pin 19 v out+ positive regulated voltage o positive voltage monitor output pin output (leave this pin open.) 43 v out- negative regulated voltage o negative voltage monitor output pin output (leave this pin open.) 26 ov4 binary transfer pulse o binary (v m24 , v l1 ) transfer pulse output output pin 28 ov2 binary transfer pulse o binary (v m24 , v l1 ) transfer pulse output output pin 29 ov3 tristate transfer pulse o tristate (v h , v m13 , v l1 ) transfer pulse output output pin 31 ov1 tristate transfer pulse o tristate (v h , v m13 , v l1 ) transfer pulse output output pin 34 osub sub pulse output o unwanted charge (v hh , v l2 ) rejection pulse input pin 14 cap1 stabilizing capacitor o pins for connecting capacitors for internal 15 cap2 connection voltage stabilization circuits 16 cap3 18 n.c. no connection � 46 47 for video equipment MN3111H 5 functional description binary transfer pulses (vertical driver block) iv2 ov2 iv4 ov4 hl lm tristate transfer pulses (vertical driver block) ch1 iv1 ov1 ch2 iv3 ov3 h hl lm l hl lh * 1 iv1, iv2, iv3, iv4, ch1, ch2 h: v cc l: gnd ov1, ov2, ov3, ov4 h: v h m: v m13 , or v m24 l: v l1 unwanted charge rejection pulses (sub driver block) isub osub hl lh * 1 isub h: v cc l: gnd osub h: v hh l: v l2 MN3111H for video equipment 6 electrical characteristics (1) dc characteristics v hh =v h =15.0v, v m13 =v m24 =1.0v, gnd=0.0v, v cc1 =v cc2 =5.0v (=v cc ), v l1 = � 7.0v, v l2 = � 10.0v, ta=+25 ? c parameter symbol test conditions min typ max unit quiescent supply current i ddst v i =gnd, v cc 4 ma operating supply current i dddyn v i =gnd, v cc 11 ma power supply output pins ov dd , ov ee positive voltage stabilization v reg+ v i =gnd, v cc , i o =7ma 14.5 15.0 15.5 v circuit output voltage negative voltage stabilization v reg- v i =gnd, v cc , i o = � 2ma � 10.5 � 10.0 � 9.5 v circuit output voltage input pins iv1, iv2, iv3, iv4, ch1, ch2, isub, hd "h" level voltage v ih 3.5 v cc v "l" level voltage v il gnd 1.5 v input leak current i li v i =0 to 5v 1 a output pins 1 (binary output) ov2, ov4 output voltage "m" level v om1 v i =gnd, v cc , i om1 = � 1ma 0.9 v m24 v output voltage "l" level v ol1 v i =gnd, v cc , i ol1 =1ma v l1 � 6.9 v output on resistance "m" level r onm1 i om1 = � 50ma 40 ? output on resistance "l" level r onl1 i ol1 =50ma 40 ? output pins 2 (tristate output) ov1, ov3 output voltage "h" level v oh2 v i =gnd, v cc , i oh2 = � 1ma 14.9 v h v output voltage "m" level v om2 v i =gnd, v cc , i om2 = � 1ma 0.9 v m13 v output voltage "l" level v ol2 v i =gnd, v cc , i ol2 =1ma v l1 � 6.9 v output on resistance "h" level r onh2 i oh2 = � 50ma 50 ? output on resistance "m" level r onm2 i om2 = 50ma 40 ? output on resistance "l" level r onl2 i ol2 =50ma 40 ? output pin 3 (sub output) osub output voltage "h" level v ohh3 v i =gnd, v cc , i ohh3 = � 1ma 14.9 v hh v output voltage "l" level v ol3 v i =gnd, v cc , i ol3 =1ma v l2 � 9.9 v output on resistance "h" level r onhh3 i onhh3 = � 50ma 50 ? output on resistance "l" level r onl3 i onl3 =50ma 40 ? for video equipment MN3111H 7 (2) ac characteristics v hh =v h =15.0v, v m13 =v m24 =1.0v, gnd=0.0v, v cc1 =v cc2 =5.0v (=v cc ), v l1 = � 7.0v, v l2 = � 10.0v, ta=+25 ? c parameter symbol test conditions min typ max unit output pins 1 (binary output) ov2, ov4 transmission delay t plm no load 100 200 ns t pml from "l" level to "m" level rise time t tlm 200 300 ns fall time t tml output pins 2 (tristate output) ov1, ov3 transmission delay t plm no load 100 200 ns t pml from "l" level to "m" level transmission delay t pmh no load 200 400 ns t phm from "m" level to "h" level rise time t tlm 200 300 ns fall time t tml rise time t tmh 200 300 ns fall time t thm output pin 3 (sub output) osub transmission delay t plhh no load 100 200 ns t phhl from "l" level to "h" level rise time t tlhh 200 300 ns fall time t thhl MN3111H for video equipment 8 timing chart 1. binary transfer pulses 2. binary transfer pulses 3. tristate transfer pulses 4. tristate transfer pulses 5. sub pulses h l l m h m l l h h h l l m l h h h h h m l l l l l 63.5s 254s 2s iv2 ov2 iv4 ov4 iv1 ch1 iv3 isub ch2 ov1 ov3 osub 3s 63.5s for video equipment MN3111H 9 application circuit example 48 37 38 39 40 41 42 43 44 45 46 47 isub ch1 iv1 iv3 ch2 sense2 v out � v in � gnd nc nc c4 � 1 2 3 4 5 6 7 8 9 10 11 12 ov ee c3+ gnd c2 � c3 � c2+ c1+ c1 � v cc1 c4+ ov dd hd 36 35 34 33 32 31 30 29 28 27 26 25 v ee v hh osub v l2 v l1 ov1 v m13 ov3 ov2 v m24 ov4 v h 13 14 15 16 17 18 19 20 21 22 23 24 v dd v cc2 iv2 iv4 sense1 v out+ nc v in+ cap3 cap2 cap1 test d4 d8 c3 c2 d3 c8 r1 d7 c9 d9 c12 d15 r6 c19 c20 r7 d11 * 1 * 1 d12 d13 c17 d14 c18 < +15.0v > < � 7.9v > < � 7v > < � 10.0v > c14 r3 c16 to ccd � s source follower power supply for od, rd, and is pins to ccd � s � v pin to ccd � s pt pin c15 r5 r4 c10 c11 5 volt input r2 c7 c5 d5 c4 d10 c13 c6 d6 c1 d2 d1 + + + + + + + + from clock generator zener diode schottky barrier diode diode with v f =0.7v + + + + + + from clock generator MN3111H the booster circuit's electrolytic capacitors must have little impedance fluctuation at low temperatures. note * 1 : these diodes must have a v f of 0.7 v. all other diodes, except the zener diodes, must be schottky barrier diodes (ma723). MN3111H for video equipment 10 package dimensions (unit: mm) qfh048-p-0707 0.5 0.2 0.1 0.5 0.2 1 12 13 48 37 7.0 0.2 7.0 0.2 2.9 max. 2.5 0.2 0 to 0.2 9.0 0.2 9.0 0.2 36 25 24 seating plane 0 to 10 1.1 0.2 0.15 +0.10 - 0.05 0.15 note) the package of this product will be changed to lead-free type (qfh048-p-0707b). see the new package dimensions section later of this datasheet. for video equipment MN3111H 11 usage notes external components 1. this product requires eight schottky barrier diodes and two zener diodes. we recommend the following components. schottky barrier diodes: ma723 or equivalents zener diodes: ma1150-m, ma8150-m (for positive regulated voltage) or equivalents ma1100-m, ma8100-m (for negative regulated voltage) or equivalents ta=25 ? c component model number typical characteristics notes schottky barrier diodes ma723 i f =200ma, v f 0.55v ma1150-m i z =5ma, 14.6v v z 15.35v for positive zener diodes ma8150-m regulated voltage ma1100-m i z =5ma, 9.75v v z 10.25v for negative ma8100-m regulated voltage the MN3111H will not operate properly if the components do not satisfy the above specifications. 2. always use the specified components for peripheral circuits so as to ensure that ov ee and v l do not reverse potentials when the power is turned off. as the above sketch illustrates, allowing ov ee to exceed v l1 and v l2 by more than 0.7 v produces the risk of applying a forward bias to the pn junction, turning on the parasitic transistor, and generating an overcurrent that produces latch-up. if this phenomenon arises, increase the size of capacitor c7 or decrease the size of capacitor c13 to increase the ov ee time constant. (see the sample application circuit for the locations of c7 and c13.) normal operation gnd off v l1 /v l2 ov ee faulty operation 0.7v or higher reversal gnd off v l1 /v l2 ov ee MN3111H for video equipment 12 new package dimensions (unit: mm) ? qfh048-p-0707b (lead-free package) 24 25 36 37 13 12 1 48 0.15 +0.10 - 0.05 9.00 0.20 (0.75) 7.00 0.20 0.20 +0.10 - 0.05 0.10 0.10 2.50 0.20 2.90 max. seating plane (0.75) (1.00) 0.50 0.20 9.00 0.20 7.00 0.20 0 to 10 0.50 0.10 please read the following notes before using the datasheets a. these materials are intended as a reference to assist customers with the selection of panasonic semiconductor products best suited to their applications. due to modification or other reasons, any information contained in this material, such as available product types, technical data, and so on, is subject to change without notice. customers are advised to contact our semiconductor sales office and obtain the latest information before starting precise technical research and/or purchasing activities. b. panasonic is endeavoring to continually improve the quality and reliability of these materials but there is always the possibility that further rectifications will be required in the future. therefore, panasonic will not assume any liability for any damages arising from any errors etc. that may ap- pear in this material. c. these materials are solely intended for a customer's individual use. therefore, without the prior written approval of panasonic, any other use such as reproducing, selling, or distributing this material to a third party, via the internet or in any other way, is prohibited. request for your special attention and precautions in using the technical information and semiconductors described in this material (1) an export permit needs to be obtained from the competent authorities of the japanese govern- ment if any of the products or technologies described in this material and controlled under the "foreign exchange and foreign trade law" is to be exported or taken out of japan. (2) the technical information described in this material is limited to showing representative character- istics and applied circuit examples of the products. it does not constitute the warranting of industrial property, the granting of relative rights, or the granting of any license. (3) the products described in this material are intended to be used for standard applications or gen- eral electronic equipment (such as office equipment, communications equipment, measuring in- struments and household appliances). consult our sales staff in advance for information on the following applications: ? special applications (such as for airplanes, aerospace, automobiles, traffic control equipment, combustion equipment, life support systems and safety devices) in which exceptional quality and reliability are required, or if the failure or malfunction of the products may directly jeopardize life or harm the human body. ? any applications other than the standard applications intended. (4) the products and product specifications described in this material are subject to change without notice for reasons of modification and/or improvement. at the final stage of your design, purchas- ing, or use of the products, therefore, ask for the most up-to-date product standards in advance to make sure that the latest specifications satisfy your requirements. (5) when designing your equipment, comply with the guaranteed values, in particular those of maxi- mum rating, the range of operating power supply voltage and heat radiation characteristics. other- wise, we will not be liable for any defect which may arise later in your equipment. even when the products are used within the guaranteed values, redundant design is recommended, so that such equipment may not violate relevant laws or regulations because of the function of our products. (6) when using products for which dry packing is required, observe the conditions (including shelf life and after-unpacking standby time) agreed upon when specification sheets are individually exchanged. (7) no part of this material may be reprinted or reproduced by any means without written permission from our company. 2001 mar |
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