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TPD4135K 2010-09-27 1 toshiba intelligent power device high voltage monolithic silicon power ic TPD4135K the TPD4135K is a dc brush less motor driver using high voltage pwm control. it is fabricated by high voltage soi process. it is three-shunt resistor circuit for current sensing. it contains level shift high-side driver, low-side driver, igbt outputs, frds and protective functions for ov er-current circuit and under voltage protection circuits and th ermal shutdown circuit. it is easy to control a dc brush less mo tor by just putting logic inputs from a mpu or motor controller to the TPD4135K. features ? high voltage power side and low voltage signal side terminal are separated. ? it is the best for current sensing in three shunt resistance. ? bootstrap circuit gives simple high-side supply. ? bootstrap diodes are built in. ? a dead time can be set as a minimum of 1.4 s, and it is the best for a sine-wave from drive. ? 3-phase bridge output using igbts. ? frds are built in. ? included over-current and under-voltage protection , and thermal shutdown. ? the regulator of 7v (typ . ) is built in. ? package: 26-pin dip. this product has a mos structure and is sensitive to electrostatic discharge. when handling this product, ensure that the environment is protected agai nst electrostatic discharge. hdip26-p-1332-2.00 weight : 3.8 g (typ.)
TPD4135K 2010-09-27 2 pin assignment marking 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 gnd nc nc hu hv hw lu lv rs lw diag nc v reg nc v cc gnd u bsu is1 is2 bsv v v bb bsw w is3 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 gnd nc nc hu hv hw lu lv rs lw diag nc v reg nc v cc gnd u bsu is1 is2 bsv v v bb bsw w is3 tpd4123k lot code. (weekly code) part no. (or abbreviation code) tpd 413 5k country of origin
TPD4135K 2010-09-27 3 block diagram v cc v reg hu hv hw lu lv lw diag low-side driver is2 gnd input logic thermal shutdown bsv bsu v bb bsw u v w high-side level shift driver 15 13 4 5 6 7 8 9 rs 10 18 21 24 23 17 22 25 20 1/16 under- voltage protection 7 v regulator 26 is3 is1 19 11 under- voltage protection under- voltage protection under- voltage protection over-current protection
TPD4135K 2010-09-27 4 pin description pin no. symbol pin description 1 gnd ground pin. 2 nc unused pin, which is not connected to the chip internally. 3 nc unused pin, which is not connected to the chip internally. 4 hu the control terminal of igbt by the high side of u. it turns off less than 1.5v. it turns on more than 2.5v. 5 hv the control terminal of igbt by the high side of v. it turns off less than 1.5v. it turns on more than 2.5v. 6 hw the control terminal of igbt by the high side of w. it turns off less than 1.5v. it turns on more than 2.5v. 7 lu the control terminal of igbt by the low side of u. it turns off less than 1.5v. it turns on more than 2.5v. 8 lv the control terminal of igbt by the low side of v. it turns off less than 1.5v. it turns on more than 2.5v. 9 lw the control terminal of igbt by the low side of w. it turns off less than 1.5v. it turns on more than 2.5v. 10 rs over current detection pin. 11 diag with the diagnostic output terminal of open drain , a pull-up is carried out by resistance. it turns on at the time of unusual. 12 nc unused pin, which is not connected to the chip internally. 13 v reg 7v regulator output pin. 14 nc unused pin, which is not connected to the chip internally. 15 v cc control power supply pin.(15v typ.) 16 gnd ground pin. 17 u u-phase output pin. 18 bsu u-phase bootstrap c apacitor connecting pin. 19 is1 u-phase igbt emitter and frd anode pin. 20 is2 v-phase igbt emitter and frd anode pin. 21 bsv v-phase bootstrap capacitor connecting pin. 22 v v-phase output pin. 23 v bb high-voltage power supply input pin. 24 bsw w-phase bootstrap capacitor connecting pin. 25 w w-phase output pin. 26 is3 w-phase igbt emitter and frd anode pin.
TPD4135K 2010-09-27 5 equivalent circuit of input pins internal circuit diagram of hu, hv, hw, lu, lv, lw input pins internal circuit diagram of rs pin internal circuit diagram of diag pin hu/hv/hw lu/lv/lw 2 k 2 k to internal circuit 6.5 v 6.5 v 6.5 v 6.5 v 2 k 200 k rs 4 k 5 pf 19.5 v to internal circuit 442 k v cc diag to internal circuit 26 v 250k
TPD4135K 2010-09-27 6 timing chart hu hv hw input voltage lu lv lw vu output voltage vv vw
TPD4135K 2010-09-27 7 truth table input high side low side mode hu hv hw lu lv lw u phase v phase w phase u phase v phase w phase diag h l l l h l on off off off on off off h l l l l h on off off off off on off l h l l l h off on off off off on off l h l h l l off on off on off off off l l h h l l off off on on off off off normal l l h l h l off off on off on off off h l l l h l off off off off off off on h l l l l h off off off off off off on l h l l l h off off off off off off on l h l h l l off off off off off off on l l h h l l off off off off off off on over-current l l h l h l off off off off off off on h l l l h l off off off off off off on h l l l l h off off off off off off on l h l l l h off off off off off off on l h l h l l off off off off off off on l l h h l l off off off off off off on thermal shutdown l l h l h l off off off off off off on h l l l h l off off off off off off on h l l l l h off off off off off off on l h l l l h off off off off off off on l h l h l l off off off off off off on l l h h l l off off off off off off on v cc under-voltage l l h l h l off off off off off off on h l l l h l off off off off on off off h l l l l h off off off off off on off l h l l l h off off off off off on off l h l h l l off off off on off off off l l h h l l off off off on off off off v bs under-voltage l l h l h l off off off off on off off
TPD4135K 2010-09-27 8 absolute maximum ratings (ta = 25c) characteristics symbol rating unit v bb 500 v power supply voltage v cc 18 v output current (dc) i out 3 a output current (pulse 1ms) i outp 6 a input voltage v in -0.5 to 7 v v reg current i reg 50 ma diag voltage v diag 20 v diag current i diag 20 ma power dissipation (igbt 1 phase (tc = 25c) ) p c(igbt) 40 w power dissipation (frd1 phase (tc = 25c) ) p c(frd) 26 w operating junction temperature t jopr -40 to 135 c junction temperature t j 150 c storage temperature t stg -55 to 150 c note: using continuously under heavy loads (e.g. t he application of high temperature/current/voltage and the significant change in temperature, etc.) may cause this product to decrease in the reliability significantly even if the operating conditions (i.e. operat ing temperature/current/voltage, etc. ) are within the absolute maximum ratings and the operating ranges. please design the appropriate reliability upon reviewing the toshiba semiconductor reliability handbook (?handling precautions?/?derating concept and methods?) and individual reliability data (i.e. reliability test report and estimated failure rate, etc).
TPD4135K 2010-09-27 9 electrical characteristics (ta = 25c) characteristics symbol test condition min typ. max unit v bb ? 50 280 450 operating power supply voltage v cc ? 13.5 15 16.5 v i bb v bb = 450 v ? ? 0.5 current dissipation i cc v cc = 15 v ? 0.8 5 ma i bs (on) v bs = 15 v, high side on ? 200 410 bootstrap current dissipation i bs (off) v bs = 15 v, high side off ? 170 370 a v ih v in = ?h?, v cc = 15 v 2.5 ? ? input voltage v il v in = ?l? , v cc = 15 v ? ? 1.5 v i ih v in = 5 v ? ? 150 input current i il v in = 0 v ? ? 100 a v cesat h v cc = 15 v, i c = 1.5 a, high side ? 2.1 2.8 output saturation voltage v cesat l v cc = 15 v, i c = 1.5 a, low side ? 2.1 2.8 v v f h i f = 1.5 a, high side ? 1.9 2.8 frd forward voltage v f l i f = 1.5 a, low side ? 1.9 2.8 v bsd forward voltage v f (bsd) i f = 500 a ? 0.8 1.2 v regulator voltage v reg v cc = 15 v, i reg = 30 ma 6.5 7 7.5 v current limiting voltage v r ? 0.46 0.5 0.54 v current limiting dead time dt ? 2.3 3.2 4.4 s thermal shutdown temperature tsd v cc = 15 v 135 ? 185 c thermal shutdown hysteresis tsd v cc = 15 v ? 50 ? c v cc under voltage protection v cc uvd ? 10 11 12 v v cc under voltage protection recovery v cc uvr ? 10.5 11.5 12.5 v v bs under voltage protection v bs uvd ? 8 9 9.5 v v bs under voltage protection recovery v bs uvr ? 8.5 9.5 10.5 v diag saturation voltage v diagsat i diag = 5 ma ? ? 0.5 v output on delay time t on v bb = 280 v, v cc = 15 v, i c = 1.5 a ? 1.8 3 s output off delay time t off v bb = 280 v, v cc = 15 v, i c = 1.5 a ? 1.3 3 s dead time t dead v bb = 280 v, v cc = 15 v, i c = 1.5 a 1.4 ? ? s frd reverse recovery time t rr v bb = 280 v, v cc = 15 v, i c = 1.5 a ? 200 ? ns
TPD4135K 2010-09-27 10 application circuit example low-side driver v cc v reg is2 gnd input logic thermal shutdown bsv bsu v bb bsw u v w 15 13 4 5 6 7 8 hu hv hw lu lv lw 9 diag 11 18 21 24 23 17 22 25 26 1/16 under- voltage protection 7 v regulator c 4 + c 5 control ic or microcomputer m c 1 c 2 c 3 r 2 r 1 c 6 + c 7 19 is1 20 is3 10 rs under- voltage protection under- voltage protection under- voltage protection high-side level shift driver over-current protection c 15v
TPD4135K 2010-09-27 11 external parts typical external parts are sh own in the following table. part typical purpose remarks c 1 , c 2 , c 3 25 v/2.2 f bootstrap capacitor (note 1) r 1 0.2 1 % (1.5 w) current detection (note 2) c 4 25 v/10 f v cc power supply stability (note 3) c 5 25 v /0.1 f v cc for surge absorber (note 3) c 6 25 v/1 f v reg power supply stability (note 3) c 7 25 v/1000 pf v reg for surge absorber (note 3) r 2 5.1 k diag pull-up resistor (note 4) note 1: the required bootstrap capacit ance value varies according to the moto r drive conditions. the capacitor is biased by v cc and must be sufficiently derated for it. note 2: the following formula shows the detection current: i o = v r r 1 (for v r = 0.5 v typ.) do not exceed a detection current of 3 a when using this product. (please go from the outside in t he over current protection.) note 3: when using this product, adjustment is required in accordance with the use environment. when mounting, place as close to the base of this product leads as possible to improve the ripple and noise elimination. note 4: the diag pin is open drain. if not using the diag pin, connect to the gnd. handling precautions please control the input signal in the state to which the v cc voltage is steady. both of the order of the v bb power supply and the v cc power supply are not cared about either. note that if the power supply is switched off as described above, this product may be destroyed if the current regeneration route to the v bb power supply is blocked when the v bb line is disconnected by a relay or similar while the motor is still running. the rs pin connecting the current detection resistor is connected to a comparator in the ic and also functions as a sensor pin for detecting over current. as a result, over voltage caused by a surge voltage, for example, may destroy the circuit. accord ingly, be careful of handling the ic or of surge voltage in its application environment.
TPD4135K 2010-09-27 12 description of protection function (1) over-current protection this product incorporates a over-current protection circuit to protec t itself against over-current at startup or when a motor is locked . this protection function detect s voltage generated in the current detection resistor connected to the rs pin. when this voltage exceeds v r ( = 0.5 v typ.), the igbt output, which is on, temporarily shuts down after a dead time , preventing any additional current from flowing to this product. the next a ll ?l? signal releases the shutdown state. (2) under voltage protection this product incorporates under vo ltage protection circuit s to prevent the igbt from operating in unsaturated mode when the v cc voltage or the v bs voltage drops. when the v cc power supply falls to this product internal setting v cc uvd ( = 11 v typ.), all igbt outputs shut down regardless of the input. this protection function has hyst eresis. when the v cc power supply reaches 0.5 v higher than the shutdown voltage (v cc uvr ( = 11.5 v typ.)), this product is auto matically restored and the igbt is turned on again by the in put. diag output is reversed at the time of v cc under-voltage protection. when the v cc power supply is less than 7 v, di ag output isn't sometimes reversed. when the v bs supply voltage drops v bs uvd ( = 9 v typ.), the high-side igbt output shuts down. when the v bs supply voltage reaches 0.5 v higher than the shutdown voltage (v bs uvr ( = 9.5 v typ.)), the igbt is turned on ag ain by the input signal. (3) thermal shutdown this product incorporates a thermal shutdown circ uit to protect itself against the abnormal state when its temperature rises excessively. when the temperature of this chip rises to the internal setting tsd du e to external causes or internal heat generation , all igbt outputs shut down rega rdless of the input. this protection function has hysteresis tsd ( = 50 c typ.). when the chip temperature falls to tsd ? tsd, the chip is automatically restored and the igbt is turned on again by the input. because the chip contains just one temperature dete ction location, when the ch ip heats up due to the igbt, for example, the differences in distance from the detection locati on in the igbt (the source of the heat) cause differences in the ti me taken for shutdown to occur. therefore, the temperature of the chip may rise higher than the thermal shutdown te mperature when the circuit started to operate. timing chart of under voltage protection note: the above timing chart is considering the delay time safe operating area note 1: the above safe operating areas are tj = 135 c (figure 1). lin ho hin v bs v cc lo diag t on t off t on t off 2.7 peak winding current (a) power supply voltage v bb (v) figure 1 soa at tj = 135 c 0 450 0 400 3
TPD4135K 2010-09-27 13 junction temperature t j (c) v cesat h ? t j igbt saturation voltage v cesat h (v) junction temperature t j (c) v cesat l ? t j igbt saturation voltage v cesat l (v) i cc ? v cc v reg ? v cc 1.4 ? 50 3.4 3.0 2.6 2.2 1.8 0 50 100 150 v cc = 15 v 0 12 2.0 0.5 1.0 1.5 14 16 18 t j = ? 40c t j =25c t j =135c 18 6.0 12 6.5 7.0 7.5 14 16 8.0 t j = ? 40c t j =25c t j =135c i reg = 30 ma 150 ? 50 3.4 3.0 2.6 2.2 1.8 0 50 100 v cc = 15 v 1.4 i c = 1.5a i c = 0.9a i c = 2.1a i c = 2.7a i c = 0.9a i c = 2.7a control power supply voltage v cc (v) regulator voltage v reg (v) control power supply voltage v cc (v) current dissipation i cc (ma) i c = 1.5a i c = 2.1a 2.0 2.4 2.8 frd forward voltage v f l (v) junction temperature t j (c) v f h ? t j frd forward voltage v f h (v) junction temperature t j (c) v f l ? t j i f = 2.1a i f = 1.5a i f = 0.9a 150 i f = 2.1a i f = 1.5 a i f = 0.9a 1.2 ? 50 0 50 100 1.6 2.0 2.4 2.8 1.2 1.6 150 ? 50 0 50 100 i f = 2.7a i f = 2.7a
TPD4135K 2010-09-27 14 under-voltage protection operating voltage v cc uv (v) t on ? t j t off ? t j junction temperature t j (c) v cc uv ? t j junction temperature t j (c) v bs uv ? t j ? 50 0 50 100 150 0 3.0 1.0 2.0 v bb = 280 v v cc = 15 v i c = 1.5 a high-side low-side 0 3.0 1.0 2.0 ? 50 0 50 100 150 v bb = 280 v v cc = 15 v i c = 1.5 a high-side low-side ? 50 0 50 100 150 10.0 11.5 11.0 0 50 100 150 10.5 8.0 10.0 8.5 9.5 9.0 v bs uvd v bs uvr under-voltage protection operating voltage v bs uv (v) ? 50 v cc uvd v cc uvr junction temperature t j (c) output-on delay time t on ( s) junction temperature t j (c) output-off delay time t off ( s) 12.0 12.5 10.5 junction temperature t j (c) d t ? t j current limiting dead time dt ( s) v r ? t j current control operating voltage v r (v) ? 50 0 50 100 150 0 6.0 2.0 4.0 v cc = 15 v ? 50 0 50 100 150 1.0 0 0.8 0.2 0.6 0.4 v cc = 15 v junction temperature t j (c)
TPD4135K 2010-09-27 15 i bs (off) ? v bs bootstrap voltage v bs (v) i bs (on) ? v bs bootstrap current dissipation i bs (on) ( a) bootstrap current dissipation i bs (off) ( a) 100 12 500 200 300 400 14 16 18 t j = ? 40c t j =25c t j =135c 18 100 12 200 300 400 14 16 500 t j = ? 40c t j =25c t j =135c turn-on loss wton ( j) junction temperature t j (c) w ton ? t j 100 ? 50 600 500 400 300 200 0 50 100 150 junction temperature t j (c) turn-off loss wtoff ( j) w toff ? t j 0 ? 50 200 160 120 80 40 0 50 100 150 i c = 2.1a i c = 1.5a i c = 0.9a i c = 1.5a i c = 2.1a i c = 2.7a i c = 2.7a bootstrap voltage v bs (v) i c = 0.9a
TPD4135K 2010-09-27 16 test circuits igbt saturation voltage (u-phase low side) frd forward voltage (u-phase low side) 1.5a 1 gnd 2 nc 3 nc 4 hu 5 hv 6 hw 7 lu 8 lv 9 lw 10 rs 11 diag 12 nc 13 v reg 14 nc 15 v cc 16 gnd 17 u 18 bsu 19 is1 20 is2 21 bsv 22 v 23 v bb 24 bsw 25 w 26 is3 vm lw = 0v v cc = 15v 1 gnd 2 nc 3 nc 4 hu 5 hv 6 hw 7 lu 8 lv 9 lw 10 rs 11 diag 12 nc 13 v reg 14 nc 15 v cc 16 gnd 17 u 18 bsu 19 is1 20 is2 21 bsv 22 v 23 v bb 24 bsw 25 w 26 is3 hw = 0v lu = 5v 1.5a vm lv = 0v hv = 0v hu = 0v
TPD4135K 2010-09-27 17 v cc current dissipation regulator voltage vm v cc = 15v 30ma 1 gnd 2 nc 3 nc 4 hu 5 hv 6 hw 7 lu 8 lv 9 lw 10 rs 11 diag 12 nc 13 v reg 14 nc 15 v cc 16 gnd 17 u 18 bsu 19 is1 20 is2 21 bsv 22 v 23 v bb 24 bsw 25 w 26 is3 im v cc = 15v 1 gnd 2 nc 3 nc 4 hu 5 hv 6 hw 7 lu 8 lv 9 lw 10 rs 11 diag 12 nc 13 v reg 14 nc 15 v cc 16 gnd 17 u 18 bsu 19 is1 20 is2 21 bsv 22 v 23 v bb 24 bsw 25 w 26 is3
TPD4135K 2010-09-27 18 output on/off delay time (u-phase low side) im u = 280v 187? 2.2 f lu = pg im t on t off 10% 10% 90% 90% lw = 0v v cc = 15v hw = 0v lu = pg lv = 0v hv = 0v hu = 0v 1 gnd 2 nc 3 nc 4 hu 5 hv 6 hw 7 lu 8 lv 9 lw 10 rs 11 diag 12 nc 13 v reg 14 nc 15 v cc 16 gnd 17 u 18 bsu 19 is1 20 is2 21 bsv 22 v 23 v bb 24 bsw 25 w 26 is3 5v
TPD4135K 2010-09-27 19 v cc under-voltage protection operating/recovery voltage (u-phase low side) *note: sweeps the v cc pin voltage from 15 v and monitors the u pin voltage. the v cc pin voltage when output is off defines the under-voltage protection operating voltage. also sweep s from 6 v to increase. the v cc pin voltage when output is on defines the under voltage protection recovery voltage. v bs under-voltage protection operating/recovery voltage (u-phase high side) *note: sweeps the bsu pin voltage from 15 v to decrease and monitors the v bb pin voltage. the bsu pin voltage when output is off defines the under volt age protection operating voltage. also sweeps the bsu pin voltage from 6v to increase and change the hu pin voltage at 5 v 0 v 5 v each time. it repeats similarly output is on. when the bsu pin vo ltage when output is on defines the under voltage protection recovery voltage. lw = 0v v cc = 15v hw = 0v lu = 0v lv = 0v hv = 0v hu = 5v 1 gnd 2 nc 3 nc 4 hu 5 hv 6 hw 7 lu 8 lv 9 lw 10 rs 11 diag 12 nc 13 v reg 14 nc 15 v cc 16 gnd bsu = 15v 6v vm 2k ? v bb = 18v 6v 15v 17 u 18 bsu 19 is1 20 is2 21 bsv 22 v 23 v bb 24 bsw 25 w 26 is3 vm u = 18v 2k ? 6v 15v v cc = 15v 6v lw = 0v hw = 0v lu = 5v lv = 0v hv = 0v hu = 0v 2 nc 3 nc 4 hu 5 hv 6 hw 7 lu 8 lv 9 lw 10 rs 11 diag 12 nc 13 v reg 14 nc 15 v cc 16 gnd 17 u 18 bsu 19 is1 20 is2 21 bsv 22 v 23 v bb 24 bsw 25 w 26 is3 1 gnd
TPD4135K 2010-09-27 20 current control operating voltage (u-phase high side) * note: sweeps the is/rs pin voltage and monitors the u pin voltage. the is/rs pin voltage when output is off de fines the current control operating voltage. bootstrap current dissipation (u-phase high side) hu = 0v/5v im bsu = 15v lw = 0v v cc = 15v hw = 0v lu = 0v lv = 0v hv = 0v 1 gnd 2 nc 3 nc 4 hu 5 hv 6 hw 7 lu 8 lv 9 lw 10 rs 11 diag 12 nc 13 v reg 14 nc 15 v cc 16 gnd 17 u 18 bsu 19 is1 20 is2 21 bsv 22 v 23 v bb 24 bsw 25 w 26 is3 v bb = 18v lw = 0v v cc = 15v hw = 0v lu = 0v lv = 0v hv = 0v hu = 5v is/rs = 0v 0.6v 2k ? 15v 1 gnd 2 nc 3 nc 4 hu 5 hv 6 hw 7 lu 8 lv 9 lw 10 rs 11 diag 12 nc 13 v reg 14 nc 15 v cc 16 gnd 17 u 18 bsu 19 is1 20 is2 21 bsv 22 v 23 v bb 24 bsw 25 w 26 is3 vm
TPD4135K 2010-09-27 21 turn-on/off loss (low side igbt + high side frd) lw = 0v v cc = 15v hw = 0v lu = pg lv = 0v hv = 0v hu = 0v im l vm v bb /u = 280v 5mh 2.2 f input (lu = pg) igbt (c-e voltage) (u-gnd) w toff w ton 1 gnd 2 nc 3 nc 4 hu 5 hv 6 hw 7 lu 8 lv 9 lw 10 rs 11 diag 12 nc 13 v reg 14 nc 15 v cc 16 gnd 17 u 18 bsu 19 is1 20 is2 21 bsv 22 v 23 v bb 24 bsw 25 w 26 is3 power supply current
TPD4135K 2010-09-27 22 package dimensions hdip26-p-1332-2.00 unit : mm weight: 3.8 g (typ.)
TPD4135K 2010-09-27 23 restrictions on product use ? toshiba corporation, and its subsidiaries and affiliates (collect ively ?toshiba?), reserve the right to make changes to the in formation in this document, and related hardware, software a nd systems (collectively ?product?) without notice. ? this document and any information herein may not be reproduc ed without prior written permission from toshiba. even with toshiba?s written permission, reproduc tion is permissible only if reproducti on is without alteration/omission. ? though toshiba works continually to improve product?s quality and reliability, product can malfunction or fail. customers are responsible for complying with safety standards and for prov iding adequate designs and safeguards for their hardware, software and systems which minimize risk and avoid situations in which a ma lfunction or failure of product could cause loss of human life, b odily injury or damage to property, including data loss or corruption. before customers use the product, create designs including the product, or incorporate the product into their own applications, cu stomers must also refer to and comply with (a) the latest versions of all relevant toshiba information, including without limitation, this document, the specifications, the data sheets and application notes for product and the precautions and condi tions set forth in the ?toshiba semiconductor reliability handbook? and (b) the instructions for the application with which the product will be us ed with or for. customers are solely responsible for all aspe cts of their own product design or applications, including but not limited to (a) determining the appropriateness of the use of this product in such design or applications; (b) eval uating and determining the applicability of any info rmation contained in this document, or in c harts, diagrams, programs, algorithms, sample application circuits, or any other referenced documents; and (c) validating all operatin g parameters for such designs and applications. toshiba assumes no liability for customers? product design or applications. ? product is intended for use in general el ectronics applications (e.g., computers, personal equipment, office equipment, measur ing equipment, industrial robots and home electroni cs appliances) or for specif ic applications as expre ssly stated in this document . product is neither intended nor warranted for use in equipment or systems that require extraordinarily high levels of quality a nd/or reliability and/or a malfunction or failure of which may cause loss of human life, bodily injury, serious property damage or se rious public impact (?unintended use?). unintended use includes, without limitation, equipment used in nuclear facilities, equipment used in the aerospace industry, medical equipment, equipment used for automobiles, trains, ships and other transportation, traffic s ignaling equipment, equipment used to control combustions or explosions, safety dev ices, elevators and escalato rs, devices related to el ectric power, and equipment used in finance-related fields. do not use product for unintended use unless specifically permitted in thi s document. ? do not disassemble, analyze, reverse-engineer, alter, modify, translate or copy product, whether in whole or in part. ? product shall not be used for or incorporated into any products or systems whose manufacture, use, or sale is prohibited under any applicable laws or regulations. ? the information contained herein is pres ented only as guidance for product use. no re sponsibility is assumed by toshiba for an y infringement of patents or any other intellectual property rights of third parties that may result from the use of product. no license to any intellectual property right is granted by this document, whether express or implied, by estoppel or otherwise. ? a bsent a written signed agreement, except as provid ed in the relevant terms and conditions of sale for product, and to the maximum extent allowable by law, toshiba (1) assumes no liability whatsoever, including without limitation, indirect, co nsequential, special, or incidental damages or loss, including without limitation, loss of profit s, loss of opportunities, business interruption and loss of data, and (2) disclaims any and all express or implied warranties and conditions related to sale, use of product, or information, including warranties or conditions of merchantability, fitness for a particular purpose, accuracy of information, or noninfringement. ? do not use or otherwise make available product or related so ftware or technology for any military purposes, including without limitation, for the design, development, use, stockpiling or m anufacturing of nuclear, chemical , or biological weapons or missi le technology products (mass destruction w eapons). product and related software and technology may be controlled under the japanese foreign exchange and foreign trade law and the u.s. expor t administration regulations. ex port and re-export of product or related software or technology are strictly prohibited exc ept in compliance with all applicable export laws and regulations. ? please contact your toshiba sales representative for details as to environmental matters such as the rohs compatibility of pro duct. please use product in compliance with all applicable laws and regula tions that regulate the inclusion or use of controlled subs tances, including without limitation, the eu rohs directive. toshiba assumes no liability for damages or losses occurring as a result o f noncompliance with applicable laws and regulations.

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