HV7224 40-Channel Symmetric Row Driver Ordering Information Device 80-Lead Ceramic Gullwing HV7224 HV7224DG Package Options 64-Lead 3-Sided Die in waffle pack Plastic Gullwing HV7224PG 80-Lead Ceramic Gullwing (MIL-STD-883 Processed*) HV7224X RBHV7224DG * For Hi-Rel process flows, refer to page 5-3 of the Databook. Features ❏ Processed with General Description HVCMOS® technology The HV72 is a low-voltage serial to high-voltage parallel converters with push-pull outputs. It is especially suitable for use as a symmetric row driver in AC thin-film electroluminescent (ACTFEL) displays. ❏ Symmetric row drive (reduces latent imaging in ACTFEL displays) ❏ Output voltage up to 240V When the data reset pin (DRIO) is at logic high, it will reset all the outputs of the internal shift register to zero. At the same time, the output of the shift register will start shifting a logic high from the least significant bit to the most significant bit. The DRIO can be triggered at any time. The DIR and SHIFT pins control the direction of data shift through the device. When DIR is at logic high, DRIOA is the input and DRIOB is the output. When DIR is grounded, DRIOB is the input and the DRIOA is the output. See the Output Sequence Operation Table for output sequence. The POL and OE pins perform the polarity select and output enable function respectively. Data is loaded on the low to high transition of the clock. A logic high will cause the output to swing to VPP if POL is high, or to GND if POL is low. All outputs will be in HighZ state if OE is at logic high. Data output buffers are provided for cascading devices. ❏ Low-power level shifting ❏ Source/Sink current 70mA (min.) ❏ Shift Register Speed 3MHz ❏ Pin-programmable shift direction (DIR, SHIFT) ❏ Hi-Rel processing available Absolute Maximum Ratings Supply voltage, VDD1 -0.5V to +7V Supply voltage, VPP Logic input levels -0.5V to +260V -0.5V to VDD +0.5V Continuous total power dissipation 2 Plastic Ceramic Operating temperature range Storage temperature range Lead temperature 1.6mm (1/16 inch) from case for 10 seconds 1200mW 1900mW Plastic -40°C to +85°C Ceramic -55°C to +125°C -65°C to +150°C 260°C Notes: 1. All voltages are referenced to GND. 2. For operation above 25°C ambient derate linearly to maximum operating temperature at 20mW/°C for plastic and at 19mW/°C for ceramic. 02/96/022 Supertex Inc. does not recommend the use of its products in life support applications and will not knowingly sell its products for use in such applications unless it receives an adequate "products liability indemnification insurance agreement." Supertex does not assume responsibility for use of devices described and limits its liability to the replacement of devices determined to be defective due to workmanship. No responsibility is assumed for possible omissions or inaccuracies. Circuitry and specifications are subject to change without notice. For the latest product specifications, refer to the Supertex website: http://www.supertex.com. For complete liability information on all Supertex products, 1 refer to the most current databook or to the Legal/Disclaimer page on the Supertex website. HV7224 Electrical Characteristics (over recommended operating conditions of VDD = 5V, VPP = 240V, and TA = 25°C unless noted) DC Characteristics Symbol Parameter Min Max Units Conditions IDD VDD supply current 10 mA fCLK = 3MHz IPP High voltage supply current 2.0 4.0 mA mA Outputs low or High-Z One Output High1 IDDQ Quiescent VDD supply current 100 µA All VIN = GND or VDD VOH High-level output VOL Low-level output HVOUT 190 V IO= -70mA Data out 4.5 V IO= -100µA HVOUT 50 V IO= 70mA Data out 0.5 V IO= 100µA IIH High-level logic input current 1.0 µA VIH = VDD IIL Low-level logic input current -1.0 µA VIL = 0V ISAT Saturation current HVOUT P-Ch -80 mA N-Ch 75 mA Note: 1. Only one output can be turned on at a time. AC Characteristics Symbol Parameter fCLK Clock frequency tW (H/L) Pulse width - clock high or low 150 ns tSUD Data set-up time before clock rises 50 ns tHD Data hold time after clock rises 50 ns tSUC HVOUT delay from clock rises (Hi-Z to H or L) 1.0 µs CL = 330pF // RL = 10kΩ tSUE HVOUT delay from Output Enable falls 600 ns CL = 330pF // RL = 10kΩ tHC HVOUT delay from clock rises (H or L to Hi-Z) 2.0 µs CL = 330pF // RL = 10kΩ tHE Min Max Units 3.0 MHz Conditions HVOUT delay from Output Enable rises 600 ns CL = 330pF // RL = 10kΩ tDHL * Delay time clock to data output falls 250 ns CL = 15pF tDLH * Delay time clock to data output rises 250 ns CL = 15pF tONF HVOUT fall time 2.0 µs CL = 330pF // RL = 10kΩ tONR HVOUT rise time 2.0 µs CL = 330pF // RL = 10kΩ tPOW POL pulse width 3.0 µs tOEW Output Enable pulse width 3.0 µs Slew rate, VPP or GND 45 V/µs One active output driving 4.7nF load * The delay is measured from the trailing edge of the clock but the data is triggered by the rising edge of the clock. There is an internal delay for the data output which is equal to tWH. Therefore the delay is measured from the trailing edge of the clock. 2 HV7224 Recommended Operating Conditions Symbol Parameter Min Max Units 4.5 5.5 V 0 240 V VDD Logic supply voltage VPP High voltage supply† VIH High-level input voltage 0.7 VDD VDD V VIL Low-level input voltage 0 0.2VDD V fCLK Clock frequency 3 MHz ±70 mA IO High voltage output current TA Operating free-air temperature IOD Plastic -40 +85 °C Ceramic -55 +125 °C ±300 mA Allowable pulse current through output diode Notes: † Output will not switch at V PP = 0V. Power-up sequence should be the following: 1. Connect ground. 2. Apply VDD. 3. Set all inputs (Data, CLK, Enable, etc.) to a known state. 4. Apply VPP. 5. The VPP should not drop below VDD or float during operation. Power-down sequence should be the reverse of the above. Input and Output Equivalent Circuits VDD VDD VPP Data Out Input GND (Power) GND (Logic) GND (Logic) Logic Inputs HVOUT Logic Data Output 3 High Voltage Outputs HV7224 Switching Waveforms l/fCLK t WL t WH VIH 50% CLK 50% VIL t SUD Data Reset Input (DRIOA/DRIOB) 50% 50% 50% t HD Data Valid 50% VIH Data Valid VIL t DLH t DHL VOH Data Reset Output (DRIOA/DRIOB) 50% 50% VOL t SUC HVOUT (POL = H) t ONR t HC VOH 90% 90% 10% High Impedance High Impedance 90% HVOUT (POL = L) 10% t SUC POL 10% t ONF t HC t POW 50% VOL VIH 50% VIL t OEW VIH OE 50% 50% t SUE t HE t ONR VOH 90% 90% HVOUT VIL 10% High Impedance High Impedance 90% HVOUT 10% t SUE 10% t HE t ONF 4 VOL HV7224 Functional Block Diagram V PP OE Polarity V DD P LT HVOUT1 D IOA N SHIFT LT CLK HVOUT 2 S/R DIR LT HVOUT 40 D IOB GND LT = Level Translator Function Table Inputs I/O Relations CLK DIR O/P HIGH X X O/P OFF X O/P LOW O/P OFF S/R Data POL OE HV Outputs H H L H X L X L HIGH-Z X X H L L L X X X X H All O/P HIGH-Z Notes: H = logic high level, L = logic low level, X = irrelevant Data input (DRIO) loaded on the low-to-high transistion of the clock. Only one active output can be set at a time. Output Sequence Operation Table DIR Shift Data Reset In Data Reset Out HVOUT# Sequence L L DRIOB DRIOA1 40 → 1 A H L DRIOA DRIOB2 1 → 40 A L H DRIOB DRIOA1 20 → 1 → 40 → 21 B H H DRIOA DRIOB2 21 → 40 → 1 → 20 B * Reference to package outline or chip layout drawing. 1.DRIOA is DRIOBdelayed by 40 clock pulses. 2. DRIOB is DRIOA delayed by 40 clock pulses. 5 Direction* Option (See pin-out on P. 12-158) HV7224 Pin Configurations HV72 Option A: Pin Function 1 HVOUT1/40 2 HVOUT 2/39 3 HVOUT 3/38 4 HVOUT 4/37 5 HVOUT 5/36 6 HVOUT 6/35 7 HVOUT 7/34 8 HVOUT 8/33 9 HVOUT 9/32 10 HVOUT 10/31 11 HVOUT 11/30 12 HVOUT 12/29 13 HVOUT 13/28 14 HVOUT 14/27 15 HVOUT 15/26 16 HVOUT 16/25 17 HVOUT 17/24 18 HVOUT 18/23 19 HVOUT 19/22 20 HVOUT 20/21 21 VPP 22 N/C 23 GND (Power) 24 GND (Logic) 25 DIR 26 VDD 27 CLK 28 N/C 29 SHIFT 30 N/C 31 DRIOA 32 N/C Pin 33 34 Function N/C DRIOB 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 OE NC POL N/C VDD N/C GND (Logic) GND (Power) N/C VPP HVOUT 21/20 HVOUT 22/19 HVOUT 23/18 HVOUT 24/17 HVOUT 25/16 HVOUT 26/15 HVOUT 27/14 HVOUT 28/13 HVOUT 29/12 HVOUT 30/11 HVOUT 31/10 HVOUT 32/9 HVOUT 33/8 HVOUT 34/7 HVOUT 35/6 HVOUT 36/5 HVOUT 37/4 HVOUT 38/3 HVOUT 39/2 HVOUT 40/1 HV72 Option B: Pin Function 1 HVOUT 20/21 2 HVOUT 19/22 3 HVOUT 18/23 4 HVOUT 17/24 5 HVOUT 16/25 6 HVOUT 15/26 7 HVOUT 14/27 8 HVOUT 13/28 9 HVOUT 12/29 10 HVOUT 11/30 11 HVOUT 10/31 12 HVOUT 9/32 13 HVOUT 8/33 14 HVOUT 7/34 15 HVOUT 6/35 16 HVOUT 5/36 17 HVOUT 4/37 18 HVOUT 3/38 19 HVOUT 2/39 20 HVOUT 1/40 21 VPP 22 N/C 23 GND (Power) 24 GND (Logic) 25 DIR 26 VDD 27 CLK 28 N/C 29 SHIFT 30 N/C 31 DRIOA 32 N/C Note: Pin designation for DIR H/L, SHIFT = L. Example: For DIR = H, pin 1 is HVOUT1. For DIR = L, pin 1 is HVOUT40. Pins 65–80 are NC (ceramic only). Pin 33 34 Function N/C DRIOB 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 OE N/C POL N/C VDD N/C GND (Logic) GND (Power) N/C VPP HVOUT 40/1 HVOUT 39/2 HVOUT 38/3 HVOUT 37/4 HVOUT 36/5 HVOUT 35/6 HVOUT 34/7 HVOUT 33/8 HVOUT 32/9 HVOUT 31/10 HVOUT 30/11 HVOUT 29/12 HVOUT 28/13 HVOUT 27/14 HVOUT 26/15 HVOUT 25/16 HVOUT 24/17 HVOUT 23/18 HVOUT 22/19 HVOUT 21/20 Note: Pin designation for DIR L/H, SHIFT = H. Example: For DIR = L, pin 1 is HVOUT20. For DIR = H, pin 1 is HVOUT21. Pins 65–80 are NC (ceramic only). 6 HV7224 Package Outline 1 64 41 64 Index 40 65 Index 24 24 1 40 25 25 80 41 top view top view 3-sided Plastic 64-pin Gullwing Package 80-pin Ceramic Gullwing Package 02/06//02 ©2002 Supertex Inc. All rights reserved. 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