august 2011 doc id 018939 rev 1 1/27 27 STV7623 480 output high-voltage gate driver features 2-level high voltage output gate driver 480 channels with -40/+35 ma source/sink output current capability 75 v output swing within +/- 45 v limits 3.0 to 3.6 v digital power supply 1.8 v cmos input signal compatibility selectable 480 or 400 outputs direct input to bidirectional shift registers selectable polarity and blanking function high voltage bcd process technology bumped dice in tray output stage similar to stv7622 pcb-less compatible dice description the STV7623 is a 1-bit x 480 shift register with dual rail high voltage/medium current output, with global blank and polarity control. the maximum shift frequency starts from 1 mhz for a 1.8 v type input signal, up to 10 mhz for a 3.3 v type input signal. this generic device can be used for segmented/dot matrix electroluminescent displays to drive an array of organic electronic transistors, or for technologies related to e-paper/e-reader/digital signage solutions. the device can be daisy-chained for various display resolutions. STV7623 die table 1. device summary order code temperature package packing STV7623wpb3 -25 c to +70 c bumped dice 3-inch tray www.st.com
contents STV7623 2/27 doc id 018939 rev 1 contents 1 description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 1.1 pin description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 2 functional description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 2.1 device operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 2.2 device power supply . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7 2.3 power sequencing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7 3 truth tables . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9 4 absolute maximum rating . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10 5 electrical characteristi cs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11 5.1 dc electrical characteristics (dgnd = 0 v) . . . . . . . . . . . . . . . . . . . . . . . 11 5.2 ac characteristics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13 5.3 timing requirements . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14 6 packing information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15 7 pad information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18 8 revision history . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26
STV7623 description doc id 018939 rev 1 3/27 1 description figure 1. STV7623 block diagram out1 out2 out 3 out4 out477 out47 8 out479 out4 8 0 level s hifter ^ ^ ^ ^ ^ ^ ^ ^ pol b l a n k 4 8 0 b i t s b i - d i r e c t i o n a l s h i f t r e g i s t e r s t v 1 s t v 2 c l k d i r v p v n dvdd dgnd l e n g t h t e s t j u s t i f y am0 8 7 3 1v1
description STV7623 4/27 doc id 018939 rev 1 1.1 pin description figure 2. pcb-less cof pinout diagram figure 2 shows the possible design of a custom cof with wire on array (woa) routing (pcb-less). this example supports only 480 outputs. table 2. pin description pin name i/o function description clk in shift clock input clock input for the chip internal shift register. data is shifted at each rising edge of this clock. dir in shift direction control pin this pin controls the output shifting direction. stv1 stv2 i/o start pulse input/output pin these pins are used to control the channel start pulse input or output pin. the function of these two pins depends on the status of dir pin (refer to the section 3: truth tables ) blank in output enable control this pin is used to control the channel output. when blank is high, the shift register is bypassed (overriden) and all driver outputs are fixed to vn level instantly, (when pol= l). it is assumed this signal affect few outputs out480 vp dvdd dgnd vn stv2 test dir clk blank pol blank clk dir length stv1 vn dgnd dvdd vp 0ut1 test10 test9 test8 test7 test6 test5 test4 test3 test2 test1 test20 test19 test18 test17 test16 test15 test14 test13 test12 test11 test10 test9 test8 test7 test6 test5 test4 test3 test2 test1 test10 test9 test8 test7 test6 test5 test4 test3 test2 test1 test20 test19 test18 test17 test16 test15 test14 test13 test12 test11 test20 test19 test18 test17 test16 test15 test14 test13 test12 test11 out480 vp dvdd dgnd vn stv2 test blank pol blank clk dir length stv1 vn dgnd dvdd vp 0ut1 dvdd pol dir clk dgnd justify test20 test19 test18 test17 test16 test15 test14 test13 test12 test11 test20 test19 test18 test17 test16 test15 test14 test13 test12 test11 out480 out479 out478 out477 - - - - - - out480 out479 out478 out477 - - - - - - test10 test9 test8 test7 test6 test5 test4 test3 test2 test1 test10 test9 test8 test7 test6 test5 test4 test3 test2 test1 - - - - - - out4 out3 out2 out1 - - - - - - out4 out3 out2 out1
STV7623 description doc id 018939 rev 1 5/27 in the pinout diagram: test is used to test the device. pol in polarity pin when pol is low, vp and vn are swapped functionally at the output pins level. this signal is assumed static. out1..out480 out driver output pins the output voltage is either vp or vn for driving the gate electrode, depending on the data stored in the shift register. it is assumed that only up to 4 outputs are changing level simultaneously. vp power power supply high voltage supply (eg +50 v) dvdd power power supply digital power supply dgnd power power supply digital ground vn power power supply negative supply test in test pin test pin (must be grounded in application) length in nb of active outputs when length =0, enable 480 outputs when length =1, enable 400 outputs this signal is assumed static justify in partial output justify mode only applicable when length=1 when justify = 0, use outputs 0 to 399 when justify = 1, use outputs 80 to 479 this signal is assumed static. table 2. pin description (continued) pin name i/o function description
functional description STV7623 6/27 doc id 018939 rev 1 2 functional description the STV7623 includes all the logic and power circuits necessary to drive the thin-film transistor (tft) of an active matrix display backplane. a low-voltage logic block manages data information, and a high-voltage block converts the low-voltage information stored in the logic block into high-voltage signals applied to the display gate lines. 2.1 device operation in the condition of dir=l, the stv1 start pulse input is sensed at the rising edge of clk and stored in the first stage of shift register, which causes the first scan signal is outputted from the out1 output pin. while stored data is transferred to the next stage of the shift register at the rising edge of the clk signal, new data of stv1 is sensed and stored simultaneously. the output pin (out1 to out480) supplies vp or vn voltage to the gate lines depending on the data stored in the shift register. for normal operation, a vp voltage is outputted one by one like a shift token from out1 to out480, in sync with clk pulse. stv2 goes up to high level at the 400/480th falling edge of clk and goes down to low level at the 401/481th falling edge of clk. this stv2 is connected to the next dr iver ic stv1 signal to cascade (daisy chain) them. when stv2 is an output, the signal is activated for 1/2 clock later. when the chip is configured in 400 output mode, only the first 400 bits entering the shift register are used, the remaining 80 outputs are removed from the shift register. figure 3. example of input/output timing dir = h 1 2 3 4 5 6 7 479 480 481 482 clk stv1 blank out1 out2 out3 out4 out5 out6 out480 stv2 example of input/output timing (dir=0)
STV7623 functional description doc id 018939 rev 1 7/27 2.2 device power supply the STV7623 must be used with the following conditions when operating: ? vp - vn < 75 v ? vp-dgnd > 10 v ?dgnd-vn>10v figure 4. device power supply 2.3 power sequencing to prevent the device from being damaged by latchup, the power on/off sequence it is recommended to follow the procedure below: ? power off => on: dvdd -> vn -> vp ? power on => off, vp -> vn -> dvdd am0 8 7 33 v1 logic inp u t vp dvdd dgnd vn o u tp u t 1 to 4 8 0
functional description STV7623 8/27 doc id 018939 rev 1 figure 5. power sequencing am0 8 7 3 4v1 dgnd vn vp dvdd
STV7623 truth tables doc id 018939 rev 1 9/27 3 truth tables when only 400 outputs are used, the remaining 80 outputs remain static. table 3. output level truth table input pins data bit blank pol outn 001 vp (+) 101 vn (-) x 1 1 vp (+) x 1 0 vn (-) 100 vp (+) 000 vn (-) table 4. output ordering truth table configurations comments length justify dir in first last out 0 0 0 stv1 out1 out480 stv2 all outputs 0 1 0 stv1 out1 out480 stv2 all outputs 1 0 0 stv1 out1 out400 stv2 1..400 1 1 0 stv1 out81 out480 stv2 81..480 0 0 1 stv2 out480 out1 stv1 all outputs 0 1 1 stv2 out480 out1 stv1 all outputs 1 0 1 stv2 out400 out1 stv1 1..400 1 1 1 stv2 out480 out81 stv1 81..480
absolute maximum rating STV7623 10/27 doc id 018939 rev 1 4 absolute maximum rating stressing the device above the rating listed in the ?absolute maximum ratings? table may cause permanent damage to the device. these are stress ratings only and operation of the device at these or any other conditions above those indicated in the operating sections of this specification is not imp lied. exposure to absolute ma ximum rating conditions for extended periods may affect device reliability. table 5. absolute maximum ratings (v ss =0v, 25c) symbol parameter value unit v dd digital supply range -0.3 to +4.0 v vp positive voltage supply -0.3 to +50 v vn negative voltage supply +0.3 to -50 v vp-vn voltage difference 90 v v in logic input voltage range -0.3 to dv dd +0.3 mv i pout driver output current x (1) (2) (3) 1. measurements done on one single output, x. the other outputs are either not used or are connected to output x. assumes junction temperature re mains less than tjmax during measurement. 2. all transient current measurements are made under conditions close to those encountered in a typical application (that is, with durat ion of any output current spike always less than 300 ns). 3. these parameters are measured during stmicroelec tronics? internal qualif ication which includes temperature characterization on standard as well as corner batches of the process. t hese parameters are not tested in production. - 70 to +35 ma i dout diode output current (1) (2) (3) -200 to +300 ma v out output voltage range -0.3 to +90 v v esd esd susceptibility, human body model (100 pf discharged through 1.5 k ), on all except the v cc pins (4) 2kv t jmax maximum junction temperature -40 to +100 c t stg storage temperature range (die) -65 to +150 c
STV7623 electrical characteristics doc id 018939 rev 1 11/27 5 electrical characteristics 5.1 dc electrical characteristics (d gnd =0v) d vdd = 3.3 v, v p = 30 v, v n = -45v, t amb = 25 c, f clk = 1 mhz, unless otherwise specified. table 7. electrical characteristics - out1 to out480 table 6. electrical characteristics - supply symbol parameter value unit min typ max d vdd digital supply voltage 3.0 3.3 3.6 v i dd digital supply current (1) 1. for 3.3v cmos input logic levels (0 or 3.3 v) ?60? a i ddl digital dynamic supply current (clk1 freq = 1mhz) (2) 2. all input data is switched at 0.5 mhz rate. ?900? a i dd digital supply current at v ih = 2.0 v ?80? a v p dc power output positive supply voltage +10 ? ? v v n dc power output negative supply voltage ??-10v v p -v n voltage gap vp-vn 20 ? 80 v i pph power output supply current (steady outputs) ??500a symbol parameter value unit min typ max vpouth power output high level (voltage drop versus vp) at ipouth = -20 ma and vp = 30 v ?4?v vpoutl power output low level at ipoutl = +20 ma , v n = -45 v ?6?v vdouth output upper diode voltage drop at idouth = +30 ma ?12v vdoutl output lower diode voltage drop at idoutl = -30 ma -2 -1 ? v
electrical characteristics STV7623 12/27 doc id 018939 rev 1 figure 6. output test configuration table 8. electrical characteristics - standard mode, ttl/lvcmos inputs: clk, dir, blank, pol, stv1, stv2, length, justify symbol parameter value unit min typ max v ih high level input voltage 1.2 ? d vdd v v il low level input voltage d gnd ?0.6 v v oh high level output voltage i oh =200a d vdd -0.3 ? dvdd v v ol low level output voltage i oh = 200 a d gnd ?d gnd +0.3 v i ih high level input current (v ih 2.0 v) -1 ? 1 a i il low level input current (v il = 0 v) -1 ? 1 a �!�-�����������6�� �9�3�3 �9�6�6�3���9�6�6�6�8�% �2�8�7�q �,�g�r�x�w�k ���
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STV7623 electrical characteristics doc id 018939 rev 1 13/27 figure 7. supply voltage (vp,vn) setting examples 5.2 ac characteristics d vdd = 3.3 v to 3.6 v, t amb = -20c to +85c, input signal edge maximum rise and fall times (tr, tf) = 3 ns load condition: 68 pf, 3.9 k , 333 pf. table 9. ac timing requirements test condition: 25 c ambient, vp = +30, vn = -45 v, d vdd =3.3v. 0v = dgnd vp > 10v vn < -10v vp vp vp vp vp vn vn vn vn vn vp-vn < 80v vp > 10v vn < -10v symbol parameter value unit min typ max t clk data clock period 0.1 ? ? s f clk max clock frequency ? 200k 1m/10m (1)(2) 1. if the digital inputs are 3.3v +/-10%, max clock frequency can be 10 mhz hz t whclk duration of clock pulse at high level 400, 40 (2) 2. output blanked during data shift. ??ns t wlclk duration of clock pulse at low level 400, 40 (2) ??ns t sdat input data set-up time before low-to-high clock transition 25 ? ? ns t hdat input data hold-time after low-to-high clock transition 25 ? ? ns
electrical characteristics STV7623 14/27 doc id 018939 rev 1 5.3 timing requirements d vdd = 3.3 v, v p = +30 v, v n = -45 v, t amb = 25 c, f clk = 1 mhz, v ilmax = 0.2 d vdd , v ihmin = 0.8 d vdd table 10. ac timing characteristics symbol parameter value unit min typ max t phl1 t plh1 delay of power output change after clk transition - high to low - low to high ?100?ns t phl2 t plh2 delay of power output change after pol transition - high to low - low to high ?100?ns t phl3 t plh3 delay of power output change after blank transition - high to low - low to high ?100?ns
STV7623 packing information doc id 018939 rev 1 15/27 6 packing information figure 8. tray (top view) �(�"�1�.�4�.�%����������
packing information STV7623 16/27 doc id 018939 rev 1 figure 9. tray (bottom view) �(�"�1�.�4�.�%����������
STV7623 packing information doc id 018939 rev 1 17/27 figure 10. die orientation in tray die identification
pad information STV7623 18/27 doc id 018939 rev 1 7 pad information figure 11. pad dimensions and coordinates (in m) the reference (x=0, y=0) is the centre of the die. output pad pitch is 68 m. stress relief pads are connected to v n (v ss ). pad size: type 1: (north/south pads) 51 x 51 m, 68 m linear pitch, passivation opening 34 x 34 m. type 2: (east/west) pads type 3: stress relief die corner pads alignment: 2 alignment marks, using 2 metals across the input long edge of the die. die size = 51 mm 2 , with special reticle/wafer map adjustments. out113 out368 vp dvdd dgnd vn dgnd vn dgnd dvdd vp out112 out1 vpp dvdd dgnd vn stv1 length di r justify clk blank pol dgnd pol blank clk dvdd di r test stv2 vn dgnd dvdd vp out480 out369 vp dvdd dgn d vn dgn d vn dgn d dvdd vp (0,0) y x die face up
STV7623 pad information doc id 018939 rev 1 19/27 ************************* * * * pads extraction * * * ************************* release 1.4 mon mar 01 18:49:21 sgt 2010 chip name: STV7623_top_icpack all dimensions are in microns. pad placement values correspond to each pad center coordinates. pad placement origin is the center of the die. lead pad name pad placements pad dimensions x = y = x = y = note: vss! == vn line vss! -8803.79 1251.455 73.1 73.1 (stress relief bump) out<113> -8670.0 1145.46 51.0 51.0 out<114> -8602.0 1145.46 51.0 51.0 out<115> -8534.0 1145.46 51.0 51.0 out<116> -8466.0 1145.46 51.0 51.0 out<117> -8398.0 1145.46 51.0 51.0 out<118> -8330.0 1145.46 51.0 51.0 out<119> -8262.0 1145.46 51.0 51.0 out<120> -8194.0 1145.46 51.0 51.0 out<121> -8126.0 1145.46 51.0 51.0 out<122> -8058.0 1145.46 51.0 51.0 out<123> -7990.0 1145.46 51.0 51.0 out<124> -7922.0 1145.46 51.0 51.0 out<125> -7854.0 1145.46 51.0 51.0 out<126> -7786.0 1145.46 51.0 51.0 out<127> -7718.0 1145.46 51.0 51.0 out<128> -7650.0 1145.46 51.0 51.0 out<129> -7582.0 1145.46 51.0 51.0 out<130> -7514.0 1145.46 51.0 51.0 out<131> -7446.0 1145.46 51.0 51.0 out<132> -7378.0 1145.46 51.0 51.0 out<133> -7310.0 1145.46 51.0 51.0 out<134> -7242.0 1145.46 51.0 51.0 out<135> -7174.0 1145.46 51.0 51.0 out<136> -7106.0 1145.46 51.0 51.0 out<137> -7038.0 1145.46 51.0 51.0 out<138> -6970.0 1145.46 51.0 51.0 out<139> -6902.0 1145.46 51.0 51.0 out<140> -6834.0 1145.46 51.0 51.0 out<141> -6766.0 1145.46 51.0 51.0 out<142> -6698.0 1145.46 51.0 51.0 out<143> -6630.0 1145.46 51.0 51.0 out<144> -6562.0 1145.46 51.0 51.0 out<145> -6494.0 1145.46 51.0 51.0 out<146> -6426.0 1145.46 51.0 51.0 out<147> -6358.0 1145.46 51.0 51.0 out<148> -6290.0 1145.46 51.0 51.0 out<149> -6222.0 1145.46 51.0 51.0 out<150> -6154.0 1145.46 51.0 51.0 out<151> -6086.0 1145.46 51.0 51.0 out<152> -6018.0 1145.46 51.0 51.0 out<153> -5950.0 1145.46 51.0 51.0 out<154> -5882.0 1145.46 51.0 51.0 out<155> -5814.0 1145.46 51.0 51.0 out<156> -5746.0 1145.46 51.0 51.0 out<157> -5678.0 1145.46 51.0 51.0 out<158> -5610.0 1145.46 51.0 51.0 out<159> -5542.0 1145.46 51.0 51.0 out<160> -5474.0 1145.46 51.0 51.0 out<161> -5406.0 1145.46 51.0 51.0 out<162> -5338.0 1145.46 51.0 51.0 out<163> -5270.0 1145.46 51.0 51.0 out<164> -5202.0 1145.46 51.0 51.0 out<165> -5134.0 1145.46 51.0 51.0 out<166> -5066.0 1145.46 51.0 51.0 out<167> -4998.0 1145.46 51.0 51.0 out<168> -4930.0 1145.46 51.0 51.0 out<169> -4862.0 1145.46 51.0 51.0 out<170> -4794.0 1145.46 51.0 51.0 out<171> -4726.0 1145.46 51.0 51.0 out<172> -4658.0 1145.46 51.0 51.0 out<173> -4590.0 1145.46 51.0 51.0 out<174> -4522.0 1145.46 51.0 51.0 out<175> -4454.0 1145.46 51.0 51.0 out<176> -4386.0 1145.46 51.0 51.0 out<177> -4318.0 1145.46 51.0 51.0 out<178> -4250.0 1145.46 51.0 51.0 out<179> -4182.0 1145.46 51.0 51.0 out<180> -4114.0 1145.46 51.0 51.0 out<181> -4046.0 1145.46 51.0 51.0 out<182> -3978.0 1145.46 51.0 51.0
pad information STV7623 20/27 doc id 018939 rev 1 out<183> -3910.0 1145.46 51.0 51.0 out<184> -3842.0 1145.46 51.0 51.0 out<185> -3774.0 1145.46 51.0 51.0 out<186> -3706.0 1145.46 51.0 51.0 out<187> -3638.0 1145.46 51.0 51.0 out<188> -3570.0 1145.46 51.0 51.0 out<189> -3502.0 1145.46 51.0 51.0 out<190> -3434.0 1145.46 51.0 51.0 out<191> -3366.0 1145.46 51.0 51.0 out<192> -3298.0 1145.46 51.0 51.0 out<193> -3230.0 1145.46 51.0 51.0 out<194> -3162.0 1145.46 51.0 51.0 out<195> -3094.0 1145.46 51.0 51.0 out<196> -3026.0 1145.46 51.0 51.0 out<197> -2958.0 1145.46 51.0 51.0 out<198> -2890.0 1145.46 51.0 51.0 out<199> -2822.0 1145.46 51.0 51.0 out<200> -2754.0 1145.46 51.0 51.0 out<201> -2686.0 1145.46 51.0 51.0 out<202> -2618.0 1145.46 51.0 51.0 out<203> -2550.0 1145.46 51.0 51.0 out<204> -2482.0 1145.46 51.0 51.0 out<205> -2414.0 1145.46 51.0 51.0 out<206> -2346.0 1145.46 51.0 51.0 out<207> -2278.0 1145.46 51.0 51.0 out<208> -2210.0 1145.46 51.0 51.0 out<209> -2142.0 1145.46 51.0 51.0 out<210> -2074.0 1145.46 51.0 51.0 out<211> -2006.0 1145.46 51.0 51.0 out<212> -1938.0 1145.46 51.0 51.0 out<213> -1870.0 1145.46 51.0 51.0 out<214> -1802.0 1145.46 51.0 51.0 out<215> -1734.0 1145.46 51.0 51.0 out<216> -1666.0 1145.46 51.0 51.0 out<217> -1598.0 1145.46 51.0 51.0 out<218> -1530.0 1145.46 51.0 51.0 out<219> -1462.0 1145.46 51.0 51.0 out<220> -1394.0 1145.46 51.0 51.0 out<221> -1326.0 1145.46 51.0 51.0 out<222> -1258.0 1145.46 51.0 51.0 out<223> -1190.0 1145.46 51.0 51.0 out<224> -1122.0 1145.46 51.0 51.0 out<225> -1054.0 1145.46 51.0 51.0 out<226> -986.0 1145.46 51.0 51.0 out<227> -918.0 1145.46 51.0 51.0 out<228> -850.0 1145.46 51.0 51.0 out<229> -782.0 1145.46 51.0 51.0 out<230> -714.0 1145.46 51.0 51.0 out<231> -646.0 1145.46 51.0 51.0 out<232> -578.0 1145.46 51.0 51.0 out<233> -510.0 1145.46 51.0 51.0 out<234> -442.0 1145.46 51.0 51.0 out<235> -374.0 1145.46 51.0 51.0 out<236> -306.0 1145.46 51.0 51.0 out<237> -238.0 1145.46 51.0 51.0 out<238> -170.0 1145.46 51.0 51.0 out<239> -102.0 1145.46 51.0 51.0 out<240> -34.0 1145.46 51.0 51.0 out<241> 34.0 1145.46 51.0 51.0 out<242> 102.0 1145.46 51.0 51.0 out<243> 170.0 1145.46 51.0 51.0 out<244> 238.0 1145.46 51.0 51.0 out<245> 306.0 1145.46 51.0 51.0 out<246> 374.0 1145.46 51.0 51.0 out<247> 442.0 1145.46 51.0 51.0 out<248> 510.0 1145.46 51.0 51.0 out<249> 578.0 1145.46 51.0 51.0 out<250> 646.0 1145.46 51.0 51.0 out<251> 714.0 1145.46 51.0 51.0 out<252> 782.0 1145.46 51.0 51.0 out<253> 850.0 1145.46 51.0 51.0 out<254> 918.0 1145.46 51.0 51.0 out<255> 986.0 1145.46 51.0 51.0 out<256> 1054.0 1145.46 51.0 51.0 out<257> 1122.0 1145.46 51.0 51.0 out<258> 1190.0 1145.46 51.0 51.0 out<259> 1258.0 1145.46 51.0 51.0 out<260> 1326.0 1145.46 51.0 51.0 out<261> 1394.0 1145.46 51.0 51.0 out<262> 1462.0 1145.46 51.0 51.0 out<263> 1530.0 1145.46 51.0 51.0 out<264> 1598.0 1145.46 51.0 51.0 out<265> 1666.0 1145.46 51.0 51.0 out<266> 1734.0 1145.46 51.0 51.0 out<267> 1802.0 1145.46 51.0 51.0 out<268> 1870.0 1145.46 51.0 51.0 out<269> 1938.0 1145.46 51.0 51.0 out<270> 2006.0 1145.46 51.0 51.0 out<271> 2074.0 1145.46 51.0 51.0 out<272> 2142.0 1145.46 51.0 51.0 out<273> 2210.0 1145.46 51.0 51.0 out<274> 2278.0 1145.46 51.0 51.0
STV7623 pad information doc id 018939 rev 1 21/27 out<275> 2346.0 1145.46 51.0 51.0 out<276> 2414.0 1145.46 51.0 51.0 out<277> 2482.0 1145.46 51.0 51.0 out<278> 2550.0 1145.46 51.0 51.0 out<279> 2618.0 1145.46 51.0 51.0 out<280> 2686.0 1145.46 51.0 51.0 out<281> 2754.0 1145.46 51.0 51.0 out<282> 2822.0 1145.46 51.0 51.0 out<283> 2890.0 1145.46 51.0 51.0 out<284> 2958.0 1145.46 51.0 51.0 out<285> 3026.0 1145.46 51.0 51.0 out<286> 3094.0 1145.46 51.0 51.0 out<287> 3162.0 1145.46 51.0 51.0 out<288> 3230.0 1145.46 51.0 51.0 out<289> 3298.0 1145.46 51.0 51.0 out<290> 3366.0 1145.46 51.0 51.0 out<291> 3434.0 1145.46 51.0 51.0 out<292> 3502.0 1145.46 51.0 51.0 out<293> 3570.0 1145.46 51.0 51.0 out<294> 3638.0 1145.46 51.0 51.0 out<295> 3706.0 1145.46 51.0 51.0 out<296> 3774.0 1145.46 51.0 51.0 out<297> 3842.0 1145.46 51.0 51.0 out<298> 3910.0 1145.46 51.0 51.0 out<299> 3978.0 1145.46 51.0 51.0 out<300> 4046.0 1145.46 51.0 51.0 out<301> 4114.0 1145.46 51.0 51.0 out<302> 4182.0 1145.46 51.0 51.0 out<303> 4250.0 1145.46 51.0 51.0 out<304> 4318.0 1145.46 51.0 51.0 out<305> 4386.0 1145.46 51.0 51.0 out<306> 4454.0 1145.46 51.0 51.0 out<307> 4522.0 1145.46 51.0 51.0 out<308> 4590.0 1145.46 51.0 51.0 out<309> 4658.0 1145.46 51.0 51.0 out<310> 4726.0 1145.46 51.0 51.0 out<311> 4794.0 1145.46 51.0 51.0 out<312> 4862.0 1145.46 51.0 51.0 out<313> 4930.0 1145.46 51.0 51.0 out<314> 4998.0 1145.46 51.0 51.0 out<315> 5066.0 1145.46 51.0 51.0 out<316> 5134.0 1145.46 51.0 51.0 out<317> 5202.0 1145.46 51.0 51.0 out<318> 5270.0 1145.46 51.0 51.0 out<319> 5338.0 1145.46 51.0 51.0 out<320> 5406.0 1145.46 51.0 51.0 out<321> 5474.0 1145.46 51.0 51.0 out<322> 5542.0 1145.46 51.0 51.0 out<323> 5610.0 1145.46 51.0 51.0 out<324> 5678.0 1145.46 51.0 51.0 out<325> 5746.0 1145.46 51.0 51.0 out<326> 5814.0 1145.46 51.0 51.0 out<327> 5882.0 1145.46 51.0 51.0 out<328> 5950.0 1145.46 51.0 51.0 out<329> 6018.0 1145.46 51.0 51.0 out<330> 6086.0 1145.46 51.0 51.0 out<331> 6154.0 1145.46 51.0 51.0 out<332> 6222.0 1145.46 51.0 51.0 out<333> 6290.0 1145.46 51.0 51.0 out<334> 6358.0 1145.46 51.0 51.0 out<335> 6426.0 1145.46 51.0 51.0 out<336> 6494.0 1145.46 51.0 51.0 out<337> 6562.0 1145.46 51.0 51.0 out<338> 6630.0 1145.46 51.0 51.0 out<339> 6698.0 1145.46 51.0 51.0 out<340> 6766.0 1145.46 51.0 51.0 out<341> 6834.0 1145.46 51.0 51.0 out<342> 6902.0 1145.46 51.0 51.0 out<343> 6970.0 1145.46 51.0 51.0 out<344> 7038.0 1145.46 51.0 51.0 out<345> 7106.0 1145.46 51.0 51.0 out<346> 7174.0 1145.46 51.0 51.0 out<347> 7242.0 1145.46 51.0 51.0 out<348> 7310.0 1145.46 51.0 51.0 out<349> 7378.0 1145.46 51.0 51.0 out<350> 7446.0 1145.46 51.0 51.0 out<351> 7514.0 1145.46 51.0 51.0 out<352> 7582.0 1145.46 51.0 51.0 out<353> 7650.0 1145.46 51.0 51.0 out<354> 7718.0 1145.46 51.0 51.0 out<355> 7786.0 1145.46 51.0 51.0 out<356> 7854.0 1145.46 51.0 51.0 out<357> 7922.0 1145.46 51.0 51.0 out<358> 7990.0 1145.46 51.0 51.0 out<359> 8058.0 1145.46 51.0 51.0 out<360> 8126.0 1145.46 51.0 51.0 out<361> 8194.0 1145.46 51.0 51.0 out<362> 8262.0 1145.46 51.0 51.0 out<363> 8330.0 1145.46 51.0 51.0 out<364> 8398.0 1145.46 51.0 51.0 out<365> 8466.0 1145.46 51.0 51.0 out<366> 8534.0 1145.46 51.0 51.0
pad information STV7623 22/27 doc id 018939 rev 1 out<367> 8602.0 1145.46 51.0 51.0 out<368> 8670.0 1145.46 51.0 51.0 vss!_1 8803.79 1251.455 73.1 73.1 (die corner, stress relief pad) vss!_2 8908.34 1151.24 73.1 73.1 (die corner, stress relief pad) vp 8916.415 997.73 51.0 51.0 vp_1 8916.415 929.73 51.0 51.0 vdd! 8916.415 752.93 51.0 51.0 vdd!_1 8916.415 684.93 51.0 51.0 gnd! 8916.415 508.13 51.0 51.0 gnd!_1 8916.415 440.13 51.0 51.0 vss!_3 8916.415 263.33 51.0 51.0 vss!_4 8916.415 195.33 51.0 51.0 gnd!_2 8916.415 0.0 51.0 51.0 vss!_5 8916.415 -195.33 51.0 51.0 vss!_6 8916.415 -263.33 51.0 51.0 gnd!_3 8916.415 -440.13 51.0 51.0 gnd!_4 8916.415 -508.13 51.0 51.0 vdd!_2 8916.415 -684.93 51.0 51.0 vdd!_3 8916.415 -752.93 51.0 51.0 vp_2 8916.415 -929.73 51.0 51.0 vp_3 8916.415 -997.73 51.0 51.0 vss!_7 8908.34 -1151.24 73.1 73.1 (die corner, stress relief pad) vss!_8 8803.79 -1251.455 73.1 73.1 (die corner, stress relief pad) out<369> 8670.0 -1145.46 51.0 51.0 out<370> 8602.0 -1145.46 51.0 51.0 out<371> 8534.0 -1145.46 51.0 51.0 out<372> 8466.0 -1145.46 51.0 51.0 out<373> 8398.0 -1145.46 51.0 51.0 out<374> 8330.0 -1145.46 51.0 51.0 out<375> 8262.0 -1145.46 51.0 51.0 out<376> 8194.0 -1145.46 51.0 51.0 out<377> 8126.0 -1145.46 51.0 51.0 out<378> 8058.0 -1145.46 51.0 51.0 out<379> 7990.0 -1145.46 51.0 51.0 out<380> 7922.0 -1145.46 51.0 51.0 out<381> 7854.0 -1145.46 51.0 51.0 out<382> 7786.0 -1145.46 51.0 51.0 out<383> 7718.0 -1145.46 51.0 51.0 out<384> 7650.0 -1145.46 51.0 51.0 out<385> 7582.0 -1145.46 51.0 51.0 out<386> 7514.0 -1145.46 51.0 51.0 out<387> 7446.0 -1145.46 51.0 51.0 out<388> 7378.0 -1145.46 51.0 51.0 out<389> 7310.0 -1145.46 51.0 51.0 out<390> 7242.0 -1145.46 51.0 51.0 out<391> 7174.0 -1145.46 51.0 51.0 out<392> 7106.0 -1145.46 51.0 51.0 out<393> 7038.0 -1145.46 51.0 51.0 out<394> 6970.0 -1145.46 51.0 51.0 out<395> 6902.0 -1145.46 51.0 51.0 out<396> 6834.0 -1145.46 51.0 51.0 out<397> 6766.0 -1145.46 51.0 51.0 out<398> 6698.0 -1145.46 51.0 51.0 out<399> 6630.0 -1145.46 51.0 51.0 out<400> 6562.0 -1145.46 51.0 51.0 out<401> 6494.0 -1145.46 51.0 51.0 out<402> 6426.0 -1145.46 51.0 51.0 out<403> 6358.0 -1145.46 51.0 51.0 out<404> 6290.0 -1145.46 51.0 51.0 out<405> 6222.0 -1145.46 51.0 51.0 out<406> 6154.0 -1145.46 51.0 51.0 out<407> 6086.0 -1145.46 51.0 51.0 out<408> 6018.0 -1145.46 51.0 51.0 out<409> 5950.0 -1145.46 51.0 51.0 out<410> 5882.0 -1145.46 51.0 51.0 out<411> 5814.0 -1145.46 51.0 51.0 out<412> 5746.0 -1145.46 51.0 51.0 out<413> 5678.0 -1145.46 51.0 51.0 out<414> 5610.0 -1145.46 51.0 51.0 out<415> 5542.0 -1145.46 51.0 51.0 out<416> 5474.0 -1145.46 51.0 51.0 out<417> 5406.0 -1145.46 51.0 51.0 out<418> 5338.0 -1145.46 51.0 51.0 out<419> 5270.0 -1145.46 51.0 51.0 out<420> 5202.0 -1145.46 51.0 51.0 out<421> 5134.0 -1145.46 51.0 51.0 out<422> 5066.0 -1145.46 51.0 51.0 out<423> 4998.0 -1145.46 51.0 51.0 out<424> 4930.0 -1145.46 51.0 51.0 out<425> 4862.0 -1145.46 51.0 51.0 out<426> 4794.0 -1145.46 51.0 51.0 out<427> 4726.0 -1145.46 51.0 51.0 out<428> 4658.0 -1145.46 51.0 51.0 out<429> 4590.0 -1145.46 51.0 51.0 out<430> 4522.0 -1145.46 51.0 51.0 out<431> 4454.0 -1145.46 51.0 51.0 out<432> 4386.0 -1145.46 51.0 51.0 out<433> 4318.0 -1145.46 51.0 51.0 out<434> 4250.0 -1145.46 51.0 51.0 out<435> 4182.0 -1145.46 51.0 51.0
STV7623 pad information doc id 018939 rev 1 23/27 out<436> 4114.0 -1145.46 51.0 51.0 out<437> 4046.0 -1145.46 51.0 51.0 out<438> 3978.0 -1145.46 51.0 51.0 out<439> 3910.0 -1145.46 51.0 51.0 out<440> 3842.0 -1145.46 51.0 51.0 out<441> 3774.0 -1145.46 51.0 51.0 out<442> 3706.0 -1145.46 51.0 51.0 out<443> 3638.0 -1145.46 51.0 51.0 out<444> 3570.0 -1145.46 51.0 51.0 out<445> 3502.0 -1145.46 51.0 51.0 out<446> 3434.0 -1145.46 51.0 51.0 out<447> 3366.0 -1145.46 51.0 51.0 out<448> 3298.0 -1145.46 51.0 51.0 out<449> 3230.0 -1145.46 51.0 51.0 out<450> 3162.0 -1145.46 51.0 51.0 out<451> 3094.0 -1145.46 51.0 51.0 out<452> 3026.0 -1145.46 51.0 51.0 out<453> 2958.0 -1145.46 51.0 51.0 out<454> 2890.0 -1145.46 51.0 51.0 out<455> 2822.0 -1145.46 51.0 51.0 out<456> 2754.0 -1145.46 51.0 51.0 out<457> 2686.0 -1145.46 51.0 51.0 out<458> 2618.0 -1145.46 51.0 51.0 out<459> 2550.0 -1145.46 51.0 51.0 out<460> 2482.0 -1145.46 51.0 51.0 out<461> 2414.0 -1145.46 51.0 51.0 out<462> 2346.0 -1145.46 51.0 51.0 out<463> 2278.0 -1145.46 51.0 51.0 out<464> 2210.0 -1145.46 51.0 51.0 out<465> 2142.0 -1145.46 51.0 51.0 out<466> 2074.0 -1145.46 51.0 51.0 out<467> 2006.0 -1145.46 51.0 51.0 out<468> 1938.0 -1145.46 51.0 51.0 out<469> 1870.0 -1145.46 51.0 51.0 out<470> 1802.0 -1145.46 51.0 51.0 out<471> 1734.0 -1145.46 51.0 51.0 out<472> 1666.0 -1145.46 51.0 51.0 out<473> 1598.0 -1145.46 51.0 51.0 out<474> 1530.0 -1145.46 51.0 51.0 out<475> 1462.0 -1145.46 51.0 51.0 out<476> 1394.0 -1145.46 51.0 51.0 out<477> 1326.0 -1145.46 51.0 51.0 out<478> 1258.0 -1145.46 51.0 51.0 out<479> 1190.0 -1145.46 51.0 51.0 out<480> 1122.0 -1145.46 51.0 51.0 vp_4 1023.655 -1145.46 51.0 51.0 vdd!_4 955.655 -1145.46 51.0 51.0 vdd!_5 887.655 -1145.46 51.0 51.0 gnd!_5 808.605 -1145.46 51.0 51.0 gnd!_6 740.605 -1145.46 51.0 51.0 vss!_9 661.555 -1145.46 51.0 51.0 vss!_10 593.555 -1145.46 51.0 51.0 stv2 512.465 -1145.46 51.0 51.0 test 440.215 -1145.46 51.0 51.0 dir 367.965 -1145.46 51.0 51.0 vdd!_6 295.715 -1145.46 51.0 51.0 clk 223.465 -1145.46 51.0 51.0 blk 151.215 -1145.46 51.0 51.0 pol 78.965 -1145.46 51.0 51.0 gnd!_7 0.0 -1145.46 51.0 51.0 pol_1 -78.965 -1145.46 51.0 51.0 blk_1 -151.215 -1145.46 51.0 51.0 clk_1 -223.465 -1145.46 51.0 51.0 just -295.715 -1145.46 51.0 51.0 dir_1 -367.965 -1145.46 51.0 51.0 lth -440.215 -1145.46 51.0 51.0 stv1 -512.465 -1145.46 51.0 51.0 vss!_11 -593.555 -1145.46 51.0 51.0 vss!_12 -661.555 -1145.46 51.0 51.0 gnd!_8 -740.605 -1145.46 51.0 51.0 gnd!_9 -808.605 -1145.46 51.0 51.0 vdd!_7 -887.655 -1145.46 51.0 51.0 vdd!_8 -955.655 -1145.46 51.0 51.0 vp_5 -1023.655 -1145.46 51.0 51.0 out<1> -1122.0 -1145.46 51.0 51.0 out<2> -1190.0 -1145.46 51.0 51.0 out<3> -1258.0 -1145.46 51.0 51.0 out<4> -1326.0 -1145.46 51.0 51.0 out<5> -1394.0 -1145.46 51.0 51.0 out<6> -1462.0 -1145.46 51.0 51.0 out<7> -1530.0 -1145.46 51.0 51.0 out<8> -1598.0 -1145.46 51.0 51.0 out<9> -1666.0 -1145.46 51.0 51.0 out<10> -1734.0 -1145.46 51.0 51.0 out<11> -1802.0 -1145.46 51.0 51.0 out<12> -1870.0 -1145.46 51.0 51.0 out<13> -1938.0 -1145.46 51.0 51.0 out<14> -2006.0 -1145.46 51.0 51.0 out<15> -2074.0 -1145.46 51.0 51.0 out<16> -2142.0 -1145.46 51.0 51.0
pad information STV7623 24/27 doc id 018939 rev 1 out<17> -2210.0 -1145.46 51.0 51.0 out<18> -2278.0 -1145.46 51.0 51.0 out<19> -2346.0 -1145.46 51.0 51.0 out<20> -2414.0 -1145.46 51.0 51.0 out<21> -2482.0 -1145.46 51.0 51.0 out<22> -2550.0 -1145.46 51.0 51.0 out<23> -2618.0 -1145.46 51.0 51.0 out<24> -2686.0 -1145.46 51.0 51.0 out<25> -2754.0 -1145.46 51.0 51.0 out<26> -2822.0 -1145.46 51.0 51.0 out<27> -2890.0 -1145.46 51.0 51.0 out<28> -2958.0 -1145.46 51.0 51.0 out<29> -3026.0 -1145.46 51.0 51.0 out<30> -3094.0 -1145.46 51.0 51.0 out<31> -3162.0 -1145.46 51.0 51.0 out<32> -3230.0 -1145.46 51.0 51.0 out<33> -3298.0 -1145.46 51.0 51.0 out<34> -3366.0 -1145.46 51.0 51.0 out<35> -3434.0 -1145.46 51.0 51.0 out<36> -3502.0 -1145.46 51.0 51.0 out<37> -3570.0 -1145.46 51.0 51.0 out<38> -3638.0 -1145.46 51.0 51.0 out<39> -3706.0 -1145.46 51.0 51.0 out<40> -3774.0 -1145.46 51.0 51.0 out<41> -3842.0 -1145.46 51.0 51.0 out<42> -3910.0 -1145.46 51.0 51.0 out<43> -3978.0 -1145.46 51.0 51.0 out<44> -4046.0 -1145.46 51.0 51.0 out<45> -4114.0 -1145.46 51.0 51.0 out<46> -4182.0 -1145.46 51.0 51.0 out<47> -4250.0 -1145.46 51.0 51.0 out<48> -4318.0 -1145.46 51.0 51.0 out<49> -4386.0 -1145.46 51.0 51.0 out<50> -4454.0 -1145.46 51.0 51.0 out<51> -4522.0 -1145.46 51.0 51.0 out<52> -4590.0 -1145.46 51.0 51.0 out<53> -4658.0 -1145.46 51.0 51.0 out<54> -4726.0 -1145.46 51.0 51.0 out<55> -4794.0 -1145.46 51.0 51.0 out<56> -4862.0 -1145.46 51.0 51.0 out<57> -4930.0 -1145.46 51.0 51.0 out<58> -4998.0 -1145.46 51.0 51.0 out<59> -5066.0 -1145.46 51.0 51.0 out<60> -5134.0 -1145.46 51.0 51.0 out<61> -5202.0 -1145.46 51.0 51.0 out<62> -5270.0 -1145.46 51.0 51.0 out<63> -5338.0 -1145.46 51.0 51.0 out<64> -5406.0 -1145.46 51.0 51.0 out<65> -5474.0 -1145.46 51.0 51.0 out<66> -5542.0 -1145.46 51.0 51.0 out<67> -5610.0 -1145.46 51.0 51.0 out<68> -5678.0 -1145.46 51.0 51.0 out<69> -5746.0 -1145.46 51.0 51.0 out<70> -5814.0 -1145.46 51.0 51.0 out<71> -5882.0 -1145.46 51.0 51.0 out<72> -5950.0 -1145.46 51.0 51.0 out<73> -6018.0 -1145.46 51.0 51.0 out<74> -6086.0 -1145.46 51.0 51.0 out<75> -6154.0 -1145.46 51.0 51.0 out<76> -6222.0 -1145.46 51.0 51.0 out<77> -6290.0 -1145.46 51.0 51.0 out<78> -6358.0 -1145.46 51.0 51.0 out<79> -6426.0 -1145.46 51.0 51.0 out<80> -6494.0 -1145.46 51.0 51.0 out<81> -6562.0 -1145.46 51.0 51.0 out<82> -6630.0 -1145.46 51.0 51.0 out<83> -6698.0 -1145.46 51.0 51.0 out<84> -6766.0 -1145.46 51.0 51.0 out<85> -6834.0 -1145.46 51.0 51.0 out<86> -6902.0 -1145.46 51.0 51.0 out<87> -6970.0 -1145.46 51.0 51.0 out<88> -7038.0 -1145.46 51.0 51.0 out<89> -7106.0 -1145.46 51.0 51.0 out<90> -7174.0 -1145.46 51.0 51.0 out<91> -7242.0 -1145.46 51.0 51.0 out<92> -7310.0 -1145.46 51.0 51.0 out<93> -7378.0 -1145.46 51.0 51.0 out<94> -7446.0 -1145.46 51.0 51.0 out<95> -7514.0 -1145.46 51.0 51.0 out<96> -7582.0 -1145.46 51.0 51.0 out<97> -7650.0 -1145.46 51.0 51.0 out<98> -7718.0 -1145.46 51.0 51.0 out<99> -7786.0 -1145.46 51.0 51.0 out<100> -7854.0 -1145.46 51.0 51.0 out<101> -7922.0 -1145.46 51.0 51.0 out<102> -7990.0 -1145.46 51.0 51.0 out<103> -8058.0 -1145.46 51.0 51.0 out<104> -8126.0 -1145.46 51.0 51.0 out<105> -8194.0 -1145.46 51.0 51.0 out<106> -8262.0 -1145.46 51.0 51.0 out<107> -8330.0 -1145.46 51.0 51.0 out<108> -8398.0 -1145.46 51.0 51.0
STV7623 pad information doc id 018939 rev 1 25/27 out<109> -8466.0 -1145.46 51.0 51.0 out<110> -8534.0 -1145.46 51.0 51.0 out<111> -8602.0 -1145.46 51.0 51.0 out<112> -8670.0 -1145.46 51.0 51.0 vss!_13 -8803.79 -1251.455 73.1 73.1 (die corner, stress relief pad) vss!_14 -8908.34 -1151.24 73.1 73.1 (die corner, stress relief pad) vp_6 -8916.415 -997.73 51.0 51.0 vp_7 -8916.415 -929.73 51.0 51.0 vdd!_9 -8916.415 -752.93 51.0 51.0 vdd!_10 -8916.415 -684.93 51.0 51.0 gnd!_10 -8916.415 -508.13 51.0 51.0 gnd!_11 -8916.415 -440.13 51.0 51.0 vss!_15 -8916.415 -263.33 51.0 51.0 vss!_16 -8916.415 -195.33 51.0 51.0 gnd!_12 -8916.415 0.0 51.0 51.0 vss!_17 -8916.415 195.33 51.0 51.0 vss!_18 -8916.415 263.33 51.0 51.0 gnd!_13 -8916.415 440.13 51.0 51.0 gnd!_14 -8916.415 508.13 51.0 51.0 vdd!_11 -8916.415 684.93 51.0 51.0 vdd!_12 -8916.415 752.93 51.0 51.0 vp_8 -8916.415 929.73 51.0 51.0 vp_9 -8916.415 997.73 51.0 51.0 vss!_19 -8908.34 1151.24 73.1 73.1 (die corner, stress relief pad)
revision history STV7623 26/27 doc id 018939 rev 1 8 revision history table 11. document revision history date revision changes 17-aug-2011 1 initial release.
STV7623 doc id 018939 rev 1 27/27 please read carefully: information in this document is provided solely in connection with st products. stmicroelectronics nv and its subsidiaries (?st ?) reserve the right to make changes, corrections, modifications or improvements, to this document, and the products and services described he rein at any time, without notice. all st products are sold pursuant to st?s terms and conditions of sale. purchasers are solely responsible for the choice, selection and use of the st products and services described herein, and st as sumes no liability whatsoever relating to the choice, selection or use of the st products and services described herein. no license, express or implied, by estoppel or otherwise, to any intellectual property rights is granted under this document. i f any part of this document refers to any third party products or services it shall not be deemed a license grant by st for the use of such third party products or services, or any intellectual property contained therein or considered as a warranty covering the use in any manner whatsoev er of such third party products or services or any intellectual property contained therein. unless otherwise set forth in st?s terms and conditions of sale st disclaims any express or implied warranty with respect to the use and/or sale of st products including without limitation implied warranties of merchantability, fitness for a parti cular purpose (and their equivalents under the laws of any jurisdiction), or infringement of any patent, copyright or other intellectual property right. unless expressly approved in writing by two authorized st representatives, st products are not recommended, authorized or warranted for use in milita ry, air craft, space, life saving, or life sustaining applications, nor in products or systems where failure or malfunction may result in personal injury, death, or severe property or environmental damage. st products which are not specified as "automotive grade" may only be used in automotive applications at user?s own risk. resale of st products with provisions different from the statements and/or technical features set forth in this document shall immediately void any warranty granted by st for the st product or service described herein and shall not create or extend in any manner whatsoev er, any liability of st. st and the st logo are trademarks or registered trademarks of st in various countries. information in this document supersedes and replaces all information previously supplied. the st logo is a registered trademark of stmicroelectronics. all other names are the property of their respective owners. ? 2011 stmicroelectronics - all rights reserved stmicroelectronics group of companies australia - belgium - brazil - canada - china - czech republic - finland - france - germany - hong kong - india - israel - ital y - japan - malaysia - malta - morocco - philippines - singapore - spain - sweden - switzerland - united kingdom - united states of america www.st.com
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