TK112xxC Very Dropout Voltage. (Vdrop=105mV 100mA) Very good stab
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REGULATOR WITH ON/OFF SWITCH TK112xxC
TK112xxC
Very Dropout Voltage. (Vdrop=105mV 100mA) Very good stability (CL=0.1µF stable type capacitor with 2.5V Vout) High Precision output Voltage (±1.5% ±50mV) Good ripple rejection ratio (80dB 1KHz) Wide operating voltage range (1.8V 14.5V) Peak output current 480mA.(10% down point) Built-in Short circuit protection Built-in Thermal Shutdown Suitable Very Noise Applications Built-in on/off Control (0.1µA Standby current) High Very Small Surface Mount Packages SOT23L SOT89 package Built-in reverse bias over current protection
Description
TK112xxC integrated circuit with silicon monolithic bipolar structure. regulator saturation voltage output type with very little quiescent current (65µA). power transistor built-in. voltage difference 0.17V (typical) when current 200mA supplied system. Because voltage drop, voltage source effectively used; this makes very suitable battery powered equipment. on/off function built into current during standby mode becomes very small level). output voltage available from 10.0V 0.1V steps. output voltage trimmed with high accuracy. This allows optimum voltage selected equipment. over current sensor circuit reverse-bias protection circuit built-in. very rugged design because protection high. Therefore, TK112xxC used with confidence. When mounted PCB, power dissipation rating becomes about 600mW/ 900mW, even though packages very small. TK112xxC features very high stability both capacitor output side provides stable operation with 0.1µF with 2.5V Vout. capacitor type used; however, larger this capacitor better overall characteristics are.
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ORDERING INFORMATION
Voltage Code 3.3V 5.0V Tape Reel Code Package Code SOT23L-6 Rank Code Rank Rank
CODE CODE CODE
CODE
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TK112xxC
Absolute maximum ratings
Parameters Supply voltage Reverse bias voltage Control voltage Storage temperature Range Power dissipation Operating voltage range Operating temperature range Short circuit current
rank device
Symbol Limiting Values Unit
Condition Vout 2.0V 2.1V Vout
VccMax VrMax VnpMax VcontMax Tstg Ishort
-0.4 -0.4 -0.4 -0.4 -0.4 SOT23L-6: SOT89-5: 14.5
Internally limited
Tj=150°C Top=-40 Top=-30
Electrical characteristics Parameters Symbol
Output voltage Line regulation Load regulation 2.5V 5.0V 1.5V 2.4V LoaReg Vout LinReg LoaReg
Test Condition Vin=VoutTyp+1V Vcont=1.8V (Ta=25°C) Unit Condition Iout 1.5% 50mV
V=5V Vtest=VoutTyp+1V- VoutTyp Iout 100mA Iout 200mA Iout 300mA Iout 100mA Iout 200mA Iout 300mA
Dropout voltage
Maximum output current Quiescent current Standby current Ground current
1.5V Vout 2.0V regulation IoutMax
Vdrop
Iout=100mA Iout=200mA Iout=300mA (2.4V Vout) Iout=270mA (2.1V Vout 2.4V) Because VopMin=1.8V (VoutTyp. 0.9)
Iout=0mA Excluding Icont Istandby Vcc=8V Vcont 0.15V state Ignd Iout=100mA Control terminal Specification (Pull down resistor 500k) Note Control current Icont Vcont=1.8V state Control voltage Vcont state, Top=-40 85°C 0.35 state, Top=-40 85°C state, Top=-30 80°C state, Top=-30 80°C treminal Voltage 1.28 Vo/Ta Typ=35 ppm/°C Reference Value noise 0.14 0.25 at1kHz Reference Value
Note input current decreases level connecting control terminal GND. (Off state). Pull-down resistor 500k. General Note: Limits guaranteed production testing correction techniques using Statistical Quality Control (SQC) methods. Unless otherwise noted. Vtest=VoutTyp+1V Iout=1mA (Tj=25°C) operation -40°C -85°C guaranteed design usual inspection. General Note: Exceeding "Absolute Maximum Rating damage device General Note: Connecting capacitor noise bypass decrease output noise voltage General Note: Output noise 0.14-0.25 1kHz 75µVrms BW400-80kHz General Note: ripple rejection 84dB 400Hz 80dB 1kHz.
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TK112xxC Rank
Absolute Maximum Ratings same Rank Operating Temperature Range Top= 85°C Operating Voltage Range Vop=2.1V 14.5V Other items same rank. Boldface type applies over full operating temperature range. (-40 85°C)
Vtest=VoutTyp+1V Iout=5mA
Parameters
Output Voltage Line regulation
Symbol
Vout LinReg
V=5V Load regulation LoaReg Iout 100mA 2.5V 5.0V Iout 200mA Iout 300mA 1.5V 2.4V LoaReg Iout 100mA Iout 200mA Iout 300mA Dropout voltage Vdrop Iout=100mA Iout=200mA Iout=300mA (2.4V Vout) (2.2V,2.3V regulation) 1.5V Vout 2.1V regulation Because VopMin=2.1V Maximum output IoutMax Vout= (VoutTyp. 0.9) current Quiescent current Iout=0mA except Icont Standby current Istandby Vcont 0.15V state current Ignd Iout=100mA Control terminal Specification (Pull down resistor =500k Note Control current Icont Vcont=1.8V state Control voltage Vcont state state 0.35 terminal Voltage 1.28 Vo/Ta Typ=35 ppm/°C Reference Value noise 0.14 0.25 at1KHz Reference Value Note input current decreases level connecting control terminal GND. (Off state). Pull-down resistor General Note: Limits guaranteed production testing correction techniques using Statistical Quality Control (SQC) methods. Unless otherwise noted. Vtest=VoutTyp+1V Iout=1mA (Tj=25°C) operation -40°C -85°C guaranteed design usual inspection. General Note: Exceeding "Absolute Maximum Rating damage device General Note: Connecting capacitor noise bypass decrease output noise voltage General Note: Output noise 0.14-0.25 µV/Hz 1kHz 75µVrms BW400-80kHz General Note: ripple rejection 84dB 400Hz 80dB 1kHz.
Unit Condition 1.5% 50mV 2.5% 80mV) Iout
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TK112xxC
Layout
Vout
Vout
SOT-23L
Terminal connected internally.
SOT89
On/off Control
Np(Vref)
Np(Vref)
on/off
view
Application
Vout
CL=0.22µF
(CL=1.0µF)
Cin=0.1µF
Iout
Vcont Icont
Cont.
Cnp=0.1µF
Note terminal connection reverses between SOT-23L SOT89. Block Diagram
Control Circuit Cont. Constant Current Source Thermal
Over Current Protect
Vout
Bandgap Reference 500k
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TK112xxC
Input /Output Capacitors
Linear regulators require input output capacitors order maintain regulator's loop stability. 0.1µF capacitor connected output side, provides stable operation voltage practical current region. However, increase capacitance when using current region voltage. Otherwise, oscillates. equivalent series resistance (ESR) output capacitor must stable operation area. However, recommended large value capacitance practical. output noise ripple noise decrease capacitance value increases. values vary widely between ceramic tantalum capacitors. However, tantalum capacitors assumed provide more damping resistance, which provides greater circuit stability. This implies that higher level circuit stability obtained using tantalum capacitors when compared ceramic capacitors with similar values.
Vout
recommended value Cin=CL=0.22µF(MLCC) Iout 0.5mA.
input capacitor necessary when battery discharged, power supply impedance increases, line distance power supply long.
Cin=0.22µF 0.1µF CL=0.22µF 0.1µF
This capacitor might necessary each individual even more regulator used. possible determine this indiscriminately. Please confirm stability while mounted. provides stable operation with output side capacitor 0.1µF (Vout 2.5V). 0.1µF more over full range temperature, either ceramic capacitor tantalum capacitor used without considering ESR. possible indiscriminately. Please confirm stability while mounted.
Output voltage, Output current Stable Operation Area
Vout=1.5V Vout=1.8V 2.2V Vout=2.5V, 3.0V Vout=4.0V Vout=5.0V
Stable Area
ESR[] Stable Area
ESR[] Stable Area
Stable Area
ESR[] Stable Area
CL=0.1
CL=0.068µF
CL=0.068µF
CL=0.068µF
CL=0.068µF
0.01
Iout
[mA]
0.01
Iout
[mA]
0.01
CL2.2µF Stable
CL1.0µF Stable
Iout [mA] CL0.68µF Stable
0.01
Iout [mA] CL0.33µF Stable
0.01
Iout [mA] CL0.33µF Stable
above graphs show stable operation with ceramic capacitor 0.1uF (excluding current region). capacitance increased voltage, current area, stable operation achieved. Please select best output capacitor according voltage current used. stability regulator improves output side capacitor used (the stable operation area extends.) Please large capacitance practical. Although operation above been described, stability equal better than operation
evaluation
Kyocera Murata
:CM05B104K10AB CM05B224K10AB CM105B104K16A CM105B224K16A CM21B225K10A :GRM36B104K10 GRM42B104K10 GRM39B104K25 GRM39B224K10 GRM39B105K6.3
Capacitance Voltage Curve Curve
Capacitance Temperature
Curve Curve Ta(°C)
Generally, ceramic capacitor both temperature characteristic voltage characteristic. Please consider both characteristics when selecting part. curves recommend characteristics.
Bias voltage(V)
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TK112xxC
Output noise
TK11230C
Noise Iout=30mA BPF=400Hz 80kHz
TK112xxC Vout Noise
Noise Iout=30mA Cnp=10000pF CL=0.22µF(MLCC) (µVrms) BPF:400 80kHz
TK11230C Noise
NoiseµVrms)
Iout=30mA BPF:400
80kHz
CL=MLCC
CL=0.22µF CL=0.47µF CL=1.0µF CL=2.2µF CL=10µF
CL=Tantal
CnpF
1000
10000
100000
Vout(V) TK11230C Iout Noise
Cnp=10000pF BPF:400
Noise(µVrms)
TK11230C Iout Noise
Cnp=10000pF BPF:400
Noise(µVrms)
80kHz
CL=0.22uF CL=0.47uF CL=1.0uF CL=2.2uF CL=10uF
CL=MLCC
Iout(mA)
80kHz
CL=0.22uF
CL=Tantal
CL=0.47uF CL=1.0uF CL=2.2uF CL=10uF
Iout(mA)
Increase decrease noise. recommended capacitance 6800pF(682) 0.22µF(224). amount noise increases with higher output voltages.
Noise(µV/Hz)
Noise Level(1/f)
Cnp=1000pF TK11230CM Cin=10µF Iout=10mA
Cnp=0.1µF Cnp=0.01µF
CL=0.22µFCeramic)
0.01
Frequency
100k
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TK112xxC
Ripple rejection
CL=0.22uF (MLCC)
Vin=5.0V Vout=3.0V Iout=10mA VR=500mVp-p f=100 1MHz Cnp=0.1uF
Vout
112XX
0.1µF
CL=0.22 (Tantal)
Vcont
CL=1uF (MLCC)
CL=0.22uF (Tantal)
Cref=0.001uF
CL=1 (Tantal)
CL=10uF (Tantal)
Cref=0.1uF
ripple rejection characteristic depends characteristic capacitance value capacitor connected output side. characteristic 50KHz more varies greatly with capacitor output side pattern. necessary, please confirm stability while operating.
R.R(dB)
Ripple Rejection Iout
-100
Cnp=0.01µF CL=0.22µFCeramic) Vin=5.0V Vripple=500mVp-p
Freq=1kHz
Freq=400Hz
Iout(mA)
(dB) Ripple Rejection Cin:None Vripple=100mVp-p Freq:1kHz Cnp:0.01µF CL:0.22µF (Ceramic) -100 Vin-Vout_Typ(V)
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TK112xxC
TK112xxCM Transient
Transient
=VoutTYP+1V Vcont=0V2V (f=100Hz) 112xxC Iout=30mA
Variable
Cnp=0.001µF
Variable
Cnp=0.01µF
Vcont
Vcont
0.22µF 1.0µF Vout 2.2µF 1.0V/div 10µs/div Vout
0.22µF 1.0µF 2.2µF 1.0V/div 50µs/div
Cnp= Variable
CL=1µF
Variable Cnp=0.01µF
Io=30mA
Vcont
Cnp= 0.001µF 0.01µF
Vcont
0.22µF 1.0µF 1.0V/div 250µs/div
Vout
0.1µF 1.0V/div 250µs/div
Vout
2.2µF
rise time regulator depends Cnp; fall time depends
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TK112xxC
LOAD Transient Variable Cnp=0.01µF
33mA
Iout
33mA
=VoutTYP+1V Vcont 1.8V
112xxC
Iout ONOFF 0.01µF
CL=1.0µF Vout
2.2µF
CL=0.22µF
When capacitor load side increased, load change becomes smaller.
Iout=0 30mA 33mA
Magnification
33mA
30mA
30mA
33mA
Iout
Iout Iout=030mA Vout
Iout=0 30mA Vout Iout=3 33mA
Iout=333mA
load voltage change greatly improved delivering little load current ground (see right curve above). Increase load side capacitor when load change fast when there large current change. addition, load, voltage change reduced delivering little load current ground.
Line Transient
Variable Cnp=0.01µF Cnp= Variable CL=1µF
Vout
CL=0.22µF CL=1.0µF
Vout
Cnp=0.001µF Cnp=0.01µF
CL=2.2µF
Cnp=0.1µF
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TK112xxC
Vout(mV)
Line regulation
Vout(mV)
Load regulation
Vo1.5V Vo2.0V Vo3.0V Vo4.0V Vo5.0V
Vin(V)
Vo=2.0V
Vo=3.0V
Vo=5.0V
Iout(mA)
Vout(mV)
Regulation point
Iout=0mA
Vdrop(mV) -100 -150 -200 -250 -300 -350 -400 -450 -500
Vdrop
-100
Iout=300mA
-200
-300
Vin(mV)
Iout(mA)
Icont(µA)
Vcont
Icont
Vout
Icont
Vcont(V)
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TK112xxC
Vout(V)
Short circuit current
IoutMax(mA)
IoutMax TK11215 TK11224
Iout(mA)
VopV)
Ignd(mA)
current
Vo1.5V Vo2.0V Vo3.0V Vo4.0V Vo5.0V
Istandby(A) 1.E-04 1.E-05 1.E-06 1.E-07 1.E-08 1.E-09 1.E-10 1.E-11 1.E-12
Standby current
Iout(mA)
Vin(V)
Irev(µA)
Reverse bias current
Vout=2V
Vout=3V
Vout=4V
Vout=5V
Vrev(V)
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Temperature Characteristics
Iout (mA)
(Ta: Ambient temperature)
Ignd(mA) 16.0 14.0 12.0 10.0
Io=200mA Io=150mA Io=100mA Io=50mA
Iout
current
Ta(°C)
Iout=300mA
Ta(°C)
Icont(µA)
Control current
Vcont(V)
on/off point
20.0 18.0 16.0 14.0 12.0 10.0
Vcont=4.0V
Vcont=3.0V Vcont=2.0V Vcont=1.8V Ta(°C) Dropout voltae
Io=300mA
Vcont(ONpoint)
Vcont(OFFpoint)
Ta(°C)
Vdrop(mV)
Ta(°C)
IoutMAX(mA)
Vin=2.0V Vin=2.2V
Output current
Io=200mA
Io=150mA Io=100mA Io=50mA
Vin=2.1V
Vin=1.9V
Ta(°C)
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TK112xxC
Output voltage Temperature characteristics
Vout(mV)
Vout=1.5V
Ta(°C)
Vout(mV)
Vout=2.0V
Ta(°C)
Vout(mV)
Vout=3.0V
Ta()
Vout(mV)
Vout=4.0V
Ta()
Vout(mV),
Vout=5.0V
Ta()
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TK112xxC
Layout
Material Glass epoxy t=0.8mm SOT89-5 Vout Derating Curve Pd(mW) Vout
SOT23L-6
SOT-89 -7.2mW/°C SOT-23- -4.8mW/°C
on/off
Please derating with 4mW/°C Pd=600mW 25°C more. Thermal resistance (ja=250°C
On/off
Please derating with 7.2mW/°C Pd=900mW 25°C more. Thermal resistance ja=138°C
50°C
(85)°C
package loss limited temperature that internal temperature sensor works (about 150°C). Therefore, package loss assumed internal limitation. There heat radiation characteristic package unit assumed because small size. Heat carried away device being installed PCB. This value changes material copper pattern etc. PCB. losses approximately 600mW (SOT-23L) 900mW(SOT-89). Enduring these losses becomes possible applications operating 25°C.
Determining thermal resistance when mounted PCB.
operating chip junction temperature shown Tj=ja about 150°C. value when overtemperature sensor made work.
(Ta=25°C)
(125/ easily obtained. Mount print circuit board. Short between output ground. after that, raise input voltage from evaluated voltage (see*1) gradually. shorted output pin, power dissipation expressed Pd=Vin Iin. input current decreases gradually temperature chip becomes high. After while, reaches thermal equilibrium. this currrent value thermal equilibrium. almost cases, shows 600mW(SOT23L-6)900mW(SOT89-5) more.
case that power, Ishort(Short Circuit Current), becomes more than twice maximum rating power dissipation moment, there possibility that destroyed before internal thermal protection works.
obtained normal temperature degrees. current that used highest operating temperature obtained from graph figure below. Procedure when mounted). Pd(mW)
obtained (Vin when output side short-circuited). plotted horizontal line 25°C. connected with point 150°C straight line (bold face line). line extended vertically above point temperature
design. instance, 75°C assumed (broken line). Extend intersection derating curve (fat solid line) (broken line) left read value. (Vinmax Vout)=Iout 75°C)
(75) 150°C maximum current that used highest operating temperature
Iout
(Vinmax Vout).
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TK112xxC
Application hint On/Off Control
recommended turn regulator when circuit following regulator non-operating. design with little electric power loss implemented. recommend on/off control regulator without using high side switch provide output from regulator. highly accurate output voltage with voltage drop obtained. Because control current small, possible control directly CMOS logic. PULLDOWN resistance (500K) built into control terminal. noise ripple rejection characteristics depend capacitance Vref terminal. ripple rejection characteristic frequency region improves increasing capacitance Cnp. standard value Cnp=0.068µF. Increase design with important output noise ripple rejection requirements. will damaged capacitor value increased. on/off switching speed changes depending terminal capacitance. switching speed slows when capacitance large.
On/Off Cont.
Vsat
Parallel connected ON/OFF TK11250C
Control
figure left illustrates multiple regulators being controlled single On/Off control signal. There possibility overheating because power loss voltage side (TK11220C) large. series resistor input line output voltage regulator order prevent over-dissipation.
TK11233C TK11220C On/Off Cont.
3.3V
2.0V
voltage dropped across resistor reduces large input-to-output voltage across regulator, reducing power dissipation device. When thermal sensor works, decrease output voltage, oscillation, etc. observed.
Current boost current boost applications, products below. voltage drop, high current regulator easily made. TK714xx TK732xx Only transistor current boost external. Iout=10A regulator) Built-in Short circuit protection: constant current external resistor.
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TK112xxC
Definition Terms output voltage tables specified with test voltage Vin=Output Voltage (Typ.) Output Voltage Vout output voltage specified with (Vin Output Voltage (Typ.) output current (Iout=5mA). Maximum Output Current Iout output current measured when output voltage decreases (VoutTyp. 0.9). input voltage (Output Voltage (Typ.) 1V). maximum output current measured short time that influenced temperature chip. output current decreases with voltage operation. Please refer "Low input voltage-output current" graph 2.1V less. Dropout Voltage Vdrop dropout voltage difference between input voltage output voltage which point regulator starts fall regulation. Below this value, output voltage will fall input voltage reduced. dependent upon load current (Iout) junction temperature (Tj). input voltage gradually decreased below test voltage. voltage difference between input output when output voltage decreases 100mV. Line Regulation Line regulation ability regulator maintain constant output voltage input voltage changes. line regulation specified input voltage changed from (Output Voltage (Typ.) (Output Voltage (Typ.) 6V). This measurement influenced temperature measured short time. Load Regulation Load Load regulation ability regulator maintain constant output voltage load current changes. input voltage (Output Voltage (Typ.) 1V). output voltage change measured load current changes from 100mA from 200mA. This measurement influenced temperature measured short time. Quiescent Current quiescent current current which flows through ground terminal under load conditions (Io=0mA). Ripple Rejection Ripple rejection ability regulator attenuate ripple content input voltage output. specified with input voltage Vout 1.5V Iout=10mA, CL=1.0µF Cnp=0.01µF Alternating Current source (f=1KHz 200mVRMS) superimposed power-supply voltage. Ripple rejection ratio ripple content output input expressed typically about 80dB 1KHz. ripple rejection improves when value capacitor noise bypass terminal circuit large. However, on/off response worsens. Standby Current.( Istandby Standby current current which flows into regulator when control voltage made volts. measured with input voltage
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TK112xxC
PROTECTION CIRCUITS Thermal Sensor thermal sensor protects device junction temperature exceeds safe value (Tj=150 °C). This temperature rise caused extreme heat, excessive power dissipation caused large output voltage drops, excessive output current. regulator will shut when temperature exceeds safe value. junction temperature decreases, regulator will begin operate again. Under sustained fault conditions, regulator output will oscillate device turns then resets. Please improve heat radiation lower input electric power. When heat radiation poor, forecast package loss obtained.
case that power, Ishort(Short Circuit Current), becomes more than twice maximum rating power dissipation moment, there possibility that destroyed before internal thermal protection works.
Reverse Bias Current reverse bias protection prevents excessive current from flowing through even input voltage becomes with voltage impressed output side (input short-circuited GND). maximum reverse bias voltage
Vout
200pF 200V 100pF 1.5k 2000V
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Outline Stamps
+0.15 -0.05
SOT23L-6
TypeCode
-0.32 0.95 (3.4)
+0.15 -0.05
0.95
+0.3 -0.1
0.95
0.95
Recommended Mount
1.4Max
00.1 0.15
Voltage Code
Unit General tolerance
Molded Resin with Body Lead Frame Treatment Marking Method Weight Country origin
Epoxy Resin Copper Alloy Solder Plating(515µm) Laser 0.023g :Japan Korea
CODE
CODE
CODE
CODE
output voltage table indicates standard value when manufactured. Please contact your authorized Toko representative voltage availability
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TK112xxC SOT89-5
0.49Max 0.49Max 0.7Max 0.7Max
TYPE CODE
VOLTAGE CODE
R:112XX
0.49Max 0.54Max
0.49Max
Recommended Mount
+0.5 -0.3
Unit General tolerance
Molded Resin with Body Lead Frame Treatment Marking Method Weight Country origin
Epoxy Resin Copper Alloy Solder Plating(515µm) Laser 0.053 Japan
CODE
CODE
CODE
CODE
output voltage table indicates standard value when manufactured. Please contact your authorized Toko representative voltage availability
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0.44Max
0.49Max
TK112xxC
NOTES
Please sure that carefully discuss your planned purchase with office intend products this application manual under conditions where particularly extreme standards reliability required, intend products applications other than those listed this application manual. Power drive products automobile, ship aircraft transport systems; steering navigation systems, emergency signal communications systems, system other than those mentioned above which include electronic sensors, measuring, display devices, which could cause major damage life, limb property misused failure function. Medical devices measuring blood pressure, pulse, etc., treatment units such coronary pacemakers heat treatment units, devices such artificial organs artificial limb systems which augment physiological functions. Electrical instruments, equipment systems used disaster crime prevention. Semiconductors, nature, fail malfunction spite devotion improve product quality reliability. urge take every possible precaution against physical injuries, fire other damages which cause failure semiconductor products taking appropriate measures, including reasonable safety margin, malfunction preventive practices fire-proofing when designing your products. This application manual effective from Oct. 2006. Note that contents subject change discontinuation without notice. When placing orders, please confirm specifications delivery condition writing. TOKO responsible problems infringement third party patents other intellectual property rights that arise from method products listed this application manual. Moreover, this application manual does signify that TOKO agrees implicitly explicitly license patent rights other intellectual property rights which holds. None ozone depleting substances(ODS) under Montreal Protocol used manufacturing process.
OFFICES
need more information this product other TOKO products, please contact TOKO Inc. Headquarters 1-17, Higashi-yukigaya 2-chome, Ohta-ku, Tokyo, 145-8585, Japan TEL: +81.3.3727.1161 FAX: +81.3.3727.1176 +81.3.3727.1169 site: http://www.toko.co.jp/ TOKO America site: http://www.toko.com/ TOKO Europe site: http://www.tokoeurope.com/ TOKO Hong Kong site: http://www.toko.com.hk/ TOKO Taiwan site: http://www.tokohc.com.tw/ TOKO Singapore site: http://www.toko.com.sg/ TOKO Seoul site: http://www.toko.co.kr/ TOKO Manila site: http://www.toko.com.ph/ TOKO Brazil site: http://www.toko.com.br/
Semiconductor Division
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