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| HV583 HV583 Demo Kit Available 128 Channel Serial to Parallel Converter with Push-Pull Outputs General Description The Supertex HV583 is a 128 channel low voltage serial to high voltage parallel converter with push-pull outputs. This device has been designed for use as a display driver. It can also be used in any application requiring multiple output, high voltage current sourcing and sinking capability such as plasma displays and inkjet printers. The device has 4 parallel 32-bit shift registers, permitting data rates 4X the speed of one. The data are shifted in during the low to high clock transition. There are also 128 latches and control logic to shift clockwise or counterclockwise. The outputs can be in a high impedance state via the output enable logic pin. Features Processed with HVCMOS technology 128 Channels 4 Separate shift registers 5V CMOS logic Output voltages up to 80V 30mA output current capability Low power level shifting 40MHz data shifting Latched data outputs Forward and reverse shifting option via DIR pin Output diode to ground and VPP for efficient power recovery Outputs can be hot switched Applications Plasma Displays Inkjet Printers Functional Block Diagram 4 DIN 4 Shift Registers 4 HVOUT1 Level Translators and HVOUT Buffers HVOUT128 CLK 128-bit Latch Output Control tDOUT DIR RST LE OLB OHB OE 04/23/02 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, refer to the most current databook or to the Legal/Disclaimer page on the Supertex website. 1 HV583 Absolute Maximum Ratings* VPP, High voltage supply VDD, Logic supply voltage Iout, Output source and sink current Idiode, Output body diode current Logic input voltages Tj, Junction temperature Storage temperature -0.5V to +90V -0.5V to +7.0V -65mA to +40mA -65mA to +65mA -0.5V to VDD+0.5V -25C to +150C -40C to +150C Ordering Information Device HV583 Notes: 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. Power-down sequence should be the reverse of the above. Recommended Operating VPP Max 80V Package Options Die HV583X *All voltages are referenced to device ground. Absolute maximum ratings are those values which damage to the device may occur. Functional operation under these conditions is not implied. Continous operation of the device at the absolute rating level may affect device reliability. Operating Conditions Symbol VPP VDD Iout SR fclk Parameter High voltage supply Low voltage supply HVout peak output current VPP power supply slew rate Clock frequency Min 15 4.5 -30 5.0 Typ Max 80 5.5 30 8.0 40 25 Tj Operating junction temperature -25 +125 Units V V mA V/s MHz MHz C Data read Cascade connection Conditions Cload = 300pF Electrical Characteristics DC Characteristics (Tj = 25C, VDD = 5V, VPP = 80V) Symbol IPPQ IDDQ HVoh Parameter VPP quiescent supply current VDD quiescent supply current High level output voltage 73 10 HVohd HVol HVold Vih Vil Iih Output p-channel body diode Low level output voltage Output n-channel body diode Logic input high voltage Logic input low voltage Logic input high current 10 Iil Voh Vil Logic input low current Logic output high Logic output low -1.0 4.5V 0.5V 30 -1.5 2.0 0 VDD 0.8 1.0 50 3 81.5 6 76 V V V V V V A A A V V Min Typ Max 10 10 Units A A Iout = 30mA, VPP = 80V Iout = 10mA, VPP = 20V Iout = -30mA, VPP =80V Iout = -30mA Iout = +30mA VDD = 4.5V to 5.5V VDD = 4.5V to 5.5V Vih = 5.3V, VDD = 5.0V Vih = 5.0V, For DIR only Vil = -0.3V Iout = 1.0mA Iout = -1.0mA Conditions 2 HV583 AC Electrical Characteristics (Tj = 25C, VDD = 5V, VPP = 80V) Symbol twclk twLE tsu1 tsu2 tsu3 th1 th2 tpdHL tpdLH tpHL tpLH tpHZL tpLZH tpHZ tpLZ tr tf Parameter Clock pulse width, high and low LE pulse width, high and low Setup time, DAs, DBs to clk Setup time, clk to LE Setup time, LE to OL, OH Hold time, clk to DAs, DBs Hold time, LE to clk Clk to DAs, DBs Clk to DAs, DBs LE, OH, OL to HVout LE, OH, OL to HVout OE to HVout OE to HVout OE to HVout OE to HVout HVout HVout Min 10 10 5 10 25 5 10 25 25 150 Typ -20 tpHL+tf Typ +40 150 Typ -20 tpHL+tf Typ +40 300 300 120 120 Typ Max Units ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns C=15pF C=15pF C=50pF C=80pF C=50pF C=80pF Rl=10K, C=50pF Rl=10K, C=50pF C=50pF C=50pF Conditions VDD =4.5V to 5.5V, Tj=-25C to 125C VDD =4.5V to 5.5V, Tj=-25C to 125C Shift Register Truth Table DIR L or open L or open H H Clk L to H H to L L to H H to L State of Shift Register Shift Hold Shift Hold Shift Direction DXB to DXA DXB to DXA DXA to DXB DXA to DXB Latch Truth Table LE L to H H to L Output State of Latch Latch execution Hold HVout Truth Table OE L H H H H OL X L H H H OH X X L H H DA/DB X X X L H HVout Z L H L H H = Level High L = Level Low X = Don't care. Can be High or Low Z = High impedance. Open circuit. 3 HV583 Block Diagram VDD VPP D1A D0 D1 D2 D3 D4 D5 D6 D7 Q0 Q1 Q2 Q3 Q4 Q5 Q6 Q7 HVOUT0 D1B D2A D2B Latch D3A D3B D4A SR SR SR SR D124 D125 D126 D127 Q124 Q125 Q126 Q127 D4B CLK DIR RST LE OH OL OE HVOUT127 DGND PGND 4 HV583 Pad Description Vpp Vdd D1A to D4A D1B to D4B Dir Clk RST LE OE OL OH DGND PGND HVout0 to HVout127 High voltage supply for outputs. Low voltage logic supply Right data input/output. Input when Dir=H, Output when Dir=L. Left data input/output. Input when Dir=L, Output when Dir=H. Dir=L or open, DXB to DXA shift. Dir=H, DXA to DXB shift. Clock input. Data shifted from low to high transition. Resets latches. Latch enable. Data latches during rising edge LE. Output enable bar. HVout high impedance control. Output low bar. HVout=low when this pin is low. OH bar input. Digital logic ground. HVout output ground. High voltage outputs. Pad Location PGND PGND PGND PGND VPP VPP VPP VPP VPP VPP HVOUT64 HVOUT63 HVOUT127 VPP PGND HVOUT0 VPP PGND D1A D2A D3A D4A OH OE OL DGND RST VDD VDD DIR D4B D3B D2B CLK D1B LE 5 DGND HV583 Pad Coordinates VPP VPP PGND PGND VPP VPP PGND PGND VPP VPP HVout63 HVout62 HVout61 HVout60 HVout59 HVout58 HVout57 HVout56 HVout55 HVout54 HVout53 HVout52 HVout51 HVout50 HVout49 HVout48 HVout47 HVout46 HVout45 HVout44 HVout43 HVout42 HVout41 HVout40 HVout39 HVout38 HVout37 HVout36 HVout35 HVout34 HVout33 HVout32 HVout31 HVout30 HVout29 HVout28 HVout27 HVout26 HVout25 HVout24 HVout23 HVout22 HVout21 HVout20 HVout19 HVout18 HVout17 HVout16 HVout15 HVout14 -741.5 -631.5 -397.5 -287.5 -27.5 82.5 342.5 452.5 686.5 796.5 1059.6 1059.6 1059.6 1059.6 1059.6 1059.6 1059.6 1059.6 1059.6 1059.6 1059.6 1059.6 1059.6 1059.6 1059.6 1059.6 1059.6 1059.6 1059.6 1059.6 1059.6 1059.6 1059.6 1059.6 1059.6 1059.6 1059.6 1059.6 1059.6 1059.6 1059.6 1059.6 1059.6 1059.6 1059.6 1059.6 1059.6 1059.6 1059.6 1059.6 1059.6 1059.6 1059.6 1059.6 1059.6 1059.6 1059.6 1059.6 1059.6 1059.6 4079.6 4079.6 3918.6 3918.6 4079.6 4079.6 3918.6 3918.6 4079.6 4079.6 3716.1 3606.1 3496.1 3386.1 3276.1 3166.1 3056.1 2946.1 2836.1 2726.1 2616.1 2506.1 2396.1 2286.1 2176.1 2066.1 1956.1 1846.1 1736.1 1626.1 1516.1 1406.1 1296.1 1186.1 1076.1 966.1 856.1 746.1 636.1 526.1 416.1 306.1 196.1 86.1 -23.9 -133.9 -243.9 -353.9 -463.9 -573.9 -683.9 -793.9 -903.9 -1013.9 -1123.9 -1233.9 -1343.9 -1453.9 -1563.9 -1673.9 HVout13 HVout12 HVout11 HVout10 HVout9 HVout8 HVout7 HVout6 HVout5 HVout4 HVout3 HVout2 HVout1 HVout0 VPP VPP PGND PGND DGND D1B D2B D3B D4B CLK LE RST DGND DIR VDD OEB OHB OLB D4A D3A D2A D1A VDD PGND PGND VPP VPP HVout127 HVout126 HVout125 HVout124 HVout123 HVout122 HVout121 HVout120 HVout119 HVout118 HVout117 HVout116 HVout115 HVout114 HVout113 HVout112 HVout111 HVout110 HVout109 1059.6 1059.6 1059.6 1059.6 1059.6 1059.6 1059.6 1059.6 1059.6 1059.6 1059.6 1059.6 1059.6 1059.6 1059.6 1059.6 1059.6 1059.6 1059.6 935.6 820.9 706.2 591.5 476.9 362.2 247.5 137.5 27.5 -82.5 -192.5 -307.2 -421.9 -536.6 -651.3 -766 -880.7 -1004.6 -1004.6 -1004.6 -1004.6 -1004.6 -1004.6 -1004.6 -1004.6 -1004.6 -1004.6 -1004.6 -1004.6 -1004.6 -1004.6 -1004.6 -1004.6 -1004.6 -1004.6 -1004.6 -1004.6 -1004.6 -1004.6 -1004.6 -1004.6 -1783.9 -1893.9 -2003.9 -2113.9 -2223.9 -2333.9 -2443.9 -2553.9 -2663.9 -2773.9 -2883.9 -2993.9 -3103.9 -3213.9 -3363.9 -3473.9 -3623.9 -3733.9 -3883.9 -4094 -4094 -4094 -4094 -4094 -4094 -4094 -4094 -4094 -4094 -4094 -4094 -4094 -4094 -4094 -4094 -4094 -3883.9 -3733.9 -3623.9 -3473.9 -3363.9 -3213.9 -3103.9 -2993.9 -2883.9 -2773.9 -2663.9 -2553.9 -2443.9 -2333.9 -2223.9 -2113.9 -2003.9 -1893.9 -1783.9 -1673.9 -1563.9 -1453.9 -1343.9 -1233.9 HVout108 HVout107 HVout106 HVout105 HVout104 HVout103 HVout102 HVout101 HVout100 HVout99 HVout98 HVout97 HVout96 HVout95 HVout94 HVout93 HVout92 HVout91 HVout90 HVout89 HVout88 HVout87 HVout86 HVout85 HVout84 HVout83 HVout82 HVout81 HVout80 HVout79 HVout78 HVout77 HVout76 HVout75 HVout74 HVout73 HVout72 HVout71 HVout70 HVout69 HVout68 HVout67 HVout66 HVout65 HVout64 -1004.6 -1004.6 -1004.6 -1004.6 -1004.6 -1004.6 -1004.6 -1004.6 -1004.6 -1004.6 -1004.6 -1004.6 -1004.6 -1004.6 -1004.6 -1004.6 -1004.6 -1004.6 -1004.6 -1004.6 -1004.6 -1004.6 -1004.6 -1004.6 -1004.6 -1004.6 -1004.6 -1004.6 -1004.6 -1004.6 -1004.6 -1004.6 -1004.6 -1004.6 -1004.6 -1004.6 -1004.6 -1004.6 -1004.6 -1004.6 -1004.6 -1004.6 -1004.6 -1004.6 -1004.6 -1123.9 -1013.9 -903.9 -793.9 -683.9 -573.9 -463.9 -353.9 -243.9 -133.9 -23.9 86.1 196.1 306.1 416.1 526.1 636.1 746.1 856.1 966.1 1076.1 1186.1 1296.1 1406.1 1516.1 1626.1 1736.1 1846.1 1956.1 2066.1 2176.1 2286.1 2396.1 2506.1 2616.1 2726.1 2836.1 2946.1 3056.1 3166.1 3276.1 3386.1 3496.1 3606.1 3716.1 04/23/02 6 1235 Bordeaux Drive, Sunnyvale, CA 94089 TEL: (408) 744-0100 * FAX: (408) 222-4895 www.supertex.com |
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