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| For Video Equipment MN3111H Vertical Driver LSI for Video Camera CCD Area Image Sensor Overview The MN3111H is a vertical driver LSI for a two-dimensional interline CCD image sensor. It features a built-in power supply circuit that, in conjunction with such external components as four booster capacitors, six voltage stabilization capacitors, eight Schottky barrier diodes, and two Zener diodes, produces stabilized +15.0V and -10.0V power supplies from a +5.0V input and HD pulses. Pin Assignment VEE VHH OSUB VL2 VL1 OV1 VM13 OV3 OV2 VM24 OV4 VH 36 35 34 33 32 31 30 29 28 27 26 25 Features Single 5 volt power supply Applications Video cameras OVEE C3+ GND C2- C3 - C2+ C1+ C1- VCC1 C4+ OVDD HD 1 2 3 4 5 6 7 8 9 10 11 12 ISUB CH1 IV1 IV3 CH2 SENSE2 VOUT- VIN - GND N.C. N.C. C4 - 37 38 39 40 41 42 43 44 45 46 47 48 24 23 22 21 20 19 18 17 16 15 14 13 VDD VCC2 IV2 IV4 SENSE1 VOUT+ N.C. VIN+ CAP3 CAP2 CAP1 TEST (TOP VIEW) QFH048-P-0707 MN3111H Block Diagram For Video Equipment OSUB VM13 VM24 OV1 OV3 OV2 VL1 OV4 26 VHH 35 34 32 31 30 29 28 27 VL2 VEE ISUB IV1 CH1 IV3 CH2 33 36 37 39 38 40 41 22 21 Tristate driver Tristate driver 25 VH 24 23 VDD VCC2 IV2 IV4 SENSE2 VOUT- VIN - GND 42 43 44 45 Negative voltage monitor Positive voltage monitor 20 19 SENSE1 VOUT+ 17 16 15 14 12 Negative and positive boosting voltage generator 13 VIN+ CAP3 CAP2 CAP1 HD TEST 48 OVEE 10 8 7 4 6 5 2 OVDD C1- C1+ C2- C2+ C3 - C3+ C4 - C4+ GND VCC1 11 1 3 9 For Video Equipment Pin Descriptions Pin No. 9 23 3 45 25 35 30 27 32 33 24 36 17 44 13 12 22 21 39 40 38 41 37 20 42 7 8 6 4 2 5 10 48 VH VHH VM13 VM24 VL1 VL2 VDD VEE VIN+ VIN - TEST HD IV2 IV4 IV1 IV3 CH1 CH2 ISUB SENSE1 SENSE2 C1+ C1- C2+ C2- C3+ C3 - C4+ C4 - C4 connection O C3 connection O C2 connection O Symbol VCC1 VCC2 GND Pin Name "H" level power supply for input block "L" level power supply for input block "H" level power supply for vertical driver "H" level power supply for SUB driver "M" level power supply for vertical driver "L" level power supply for vertical driver "L" level power supply for SUB driver Driver power supply 1 Driver power supply 2 Voltage input for positive voltage monitor Voltage input for negative voltage monitor Test input HD pulse input Transfer pulse input Transfer pulse input Transfer pulse input Transfer pulse input Charge pulse input Charge pulse input SUB pulse input Positive voltage monitor sensing input Negative voltage monitor sensing input C1 connection O I I I I I I I I I I I I I I I I I I I I I I/O I MN3111H Function Description "H" level input for 5 volt circuits "L" level input for 5 volt circuits "H" level input for high-voltage circuits "H" level input for high-voltage circuits "M" level input for high-voltage circuits "L" level input for high-voltage circuits "L" level input for high-voltage circuits "H" level for high-voltage circuits "L" level for high-voltage circuits Voltage input pin for positive voltage monitor Voltage input pin for negative voltage monitor Test pin (Keep this pin at "H" level.) HD pulse input pin Charge transfer pulse input pin Charge transfer pulse input pin Charge transfer pulse input pin Charge transfer pulse input pin Charge readout pulse input pin Charge readout pulse input pin Unwanted charge rejection pulse input pin Positive voltage monitor control sensing pin (Leave this pin open.) Negative voltage monitor control sensing pin (Leave this pin open.) Booster block voltage charging capacitor connection pins Booster block voltage charging capacitor connection pins Booster block voltage charging capacitor connection pins Booster block voltage charging capacitor connection pins MN3111H Pin Descriptions (continued) Pin No. 11 1 19 43 26 28 29 31 34 14 15 16 18 46 47 Symbol OVDD OVEE VOUT+ VOUTOV4 OV2 OV3 OV1 OSUB CAP1 CAP2 CAP3 N.C. No connection -- Pin Name Booster block positive voltage output Booster block negative voltage output Positive regulated voltage output Negative regulated voltage output Binary transfer pulse output Binary transfer pulse output Tristate transfer pulse output Tristate transfer pulse output SUB pulse output Stabilizing capacitor connection O O O O O O O O O I/O O For Video Equipment Function Description Booster block positive voltage output pin Booster block negative voltage output pin Positive voltage monitor output pin (Leave this pin open.) Negative voltage monitor output pin (Leave this pin open.) Binary (VM24 , V L1) transfer pulse output pin Binary (VM24 , VL1 ) transfer pulse output pin Tristate (VH , V M13 , V L1) transfer pulse output pin Tristate (VH , V M13 , V L1) transfer pulse output pin Unwanted charge (VHH , VL2 ) rejection pulse input pin Pins for connecting capacitors for internal voltage stabilization circuits For Video Equipment Functional Description Binary transfer pulses (vertical driver block) IV2 IV4 H L OV2 OV4 L M MN3111H Tristate transfer pulses (vertical driver block) CH1 CH2 H L *1 IV1, IV2, IV3, IV4, CH1, CH2 H: VCC L: GND OV1, OV2, OV3, OV4 H: VH M: VM13 , or VM24 L: VL1 IV1 IV3 H L H L OV1 OV3 L M L H Unwanted charge rejection pulses (SUB driver block) ISUB H L *1 ISUB H: VCC L: GND OSUB H: VHH L: VL2 OSUB L H MN3111H Electrical Characteristics (1) DC characteristics VHH=VH=15.0V, V M13=VM24 =1.0V, GND=0.0V, VCC1=VCC2=5.0V (=VCC ), VL1=-7.0V, VL2=-10.0V, Ta=+25C For Video Equipment Parameter Quiescent supply current Operating supply current Power supply output pins Positive voltage stabilization circuit output voltage Negative voltage stabilization circuit output voltage Input pins "H" level voltage "L" level voltage Input leak current Output pins 1 (Binary output) Output voltage "M" level Output voltage "L" level Output on resistance "M" level Output on resistance "L" level Symbol IDDST IDDDYN VREG+ VREG- Test conditions VI=GND, V CC VI=GND, V CC VI=GND, V CC , IO=7mA VI=GND, V CC , IO=-2mA min typ max 4 11 Unit mA mA V V OVDD , OVEE 14.5 -10.5 15.0 -10.0 15.5 -9.5 IV1, IV2, IV3, IV4, CH1, CH2, ISUB, HD VIH VIL ILI VOM1 VOL1 RONM1 RONL1 VOH2 VOM2 VOL2 RONH2 RONM2 RONL2 V OHH3 VOL3 RONHH3 RONL3 VI=0 to 5V OV2, OV4 VI=GND, V CC , IOM1=-1mA VI=GND, V CC , IOL1 =1mA IOM1=-50mA IOL1 =50mA VI=GND, V CC , IOH2= -1mA VI=GND, V CC , IOM2=-1mA VI=GND, V CC , IOL2 =1mA IOH2=-50mA IOM2=50mA IOL2 =50mA VI=GND, V CC , IOHH3=-1mA VI=GND, V CC , IOL3 =1mA IONHH3=-50mA IONL3=50mA 14.9 VL2 14.9 0.9 VL1 0.9 VL1 VM24 -6.9 40 40 VH VM13 -6.9 50 40 40 VHH -9.9 50 40 V V V V V V V 3.5 GND VCC 1.5 1 V V A Output pins 2 (Tristate output) Output voltage "H" level Output voltage "M" level Output voltage "L" level Output on resistance "H" level Output on resistance "M" level Output on resistance "L" level Output pin 3 (SUB output) Output voltage "H" level Output voltage "L" level Output on resistance "H" level Output on resistance "L" level OV1, OV3 OSUB For Video Equipment (2) AC characteristics VHH=VH=15.0V, V M13=VM24 =1.0V, GND=0.0V, VCC1=VCC2=5.0V (=VCC), V L1=-7.0V, VL2=-10.0V, Ta=+25C MN3111H Parameter Symbol Output pins 1 (Binary output) OV2, OV4 Transmission delay Rise time Fall time Output pins 2 (Tristate output) Transmission delay Transmission delay Rise time Fall time Rise time Fall time Output pin 3 (SUB output) Transmission delay Rise time Fall time tPLM tPML tTLM tTML OV1, OV3 tPLM tPML tPMH tPHM tTLM tTML tTMH tTHM OSUB tPLHH tPHHL tTLHH tTHHL No load No load No load Test conditions min typ max Unit From "L" level to "M" level 100 200 200 300 ns ns From "L" level to "M" level No load From "M" level to "H" level 100 200 200 200 200 400 300 300 ns ns ns ns From "L" level to "H" level 100 200 200 300 ns ns MN3111H Timing Chart 1. Binary transfer pulses 63.5s 2s IV2 254s For Video Equipment 63.5s H L M L OV2 2. Binary transfer pulses IV4 H L M L OV4 3. Tristate transfer pulses IV1 3s CH1 H L H L H OV1 M L 4. Tristate transfer pulses IV3 CH2 H L H L H M L OV3 5. SUB pulses ISUB H L H OSUB L For Video Equipment Application Circuit Example Diode with VF=0.7V Zener diode D13 < -7.9V > to CCD's PT pin D14 C18 to CCD's oV pin MN3111H to CCD's source follower power supply for OD, RD, and IS pins D15 *1 Schottky barrier diode R6 D11 D12 *1 + C17 + < -7V > C19 < -10.0V > C20 R4 + + + D9 D7 5 volt input C9 C10 C11 C12 from clock generator R3 C14 C15 + 36 35 34 R7 33 32 31 30 29 28 27 26 VEE OSUB VHH VL2 VL1 OV1 VM13 OV3 OV2 VM24 OV4 from clock generator VH 25 37 38 39 40 41 C13 + 42 43 44 45 46 47 48 D10 ISUB CH1 IV1 IV3 CH2 SENSE2 VOUT- VIN - GND NC NC C4 - 11 OVDD OVEE GND VCC1 C3 - C3+ C2+ C1+ 10 C4+ C2- C1- VDD VCC2 IV2 IV4 SENSE1 24 23 22 21 20 19 18 17 16 15 14 13 R1 MN3111H VOUT+ NC VIN+ CAP3 CAP2 CAP1 TEST C4 + R2 C2 D1 C7 D8 C3 + + C1 D3 D5 C5 D2 + + + + C6 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). D4 D6 C8 12 HD 1 2 3 4 5 6 7 8 9 < +15.0V > R5 C16 MN3111H Package Dimensions (Unit: mm) QFH048-P-0707 For Video Equipment 9.00.2 7.00.2 36 25 (0.75) 7.00.2 37 24 48 13 1 (0.75) 0.5 12 0.20.1 (1.0) 2.9 max. 2.50.2 9.00.2 0.15 +0.10 -0.05 0.10.1 0.1 SEATING PLANE 0.50.2 0 to 10 For Video Equipment Usage Notes External components 1. This product requires eight Schottky barrier diodes and two Zener diodes. We recommend the following components. Schottky barrier diodes: Zener diodes: MA723 or equivalents MN3111H MA1150-M, MA8150-M (for positive regulated voltage) or equivalents MA1100-M, MA8100-M (for negative regulated voltage) or equivalents Ta=25C Component Schottky barrier diodes Model number MA723 MA1150-M Typical characteristics I F =200mA, VF 0.55V I Z=5mA, 14.6V VZ 15.35V I Z=5mA, 9.75V VZ 10.25V Notes for positive regulated voltage for negative regulated voltage Zener diodes MA8150-M MA1100-M MA8100-M 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 OVEE and VL do not reverse potentials when the power is turned off. Normal operation GND VL1/VL2 OVEE OFF GND Faulty operation 0.7V or higher VL1/VL2 OVEE Reversal OFF As the above sketch illustrates, allowing OVEE to exceed V L1 and VL2 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 OVEE time constant. (See the sample application circuit for the locations of C7 and C13.) |
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