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  • 型号: BA3404F-E2
  • 制造商: ROHM Semiconductor
  • 库位|库存: xxxx|xxxx
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ICGOO电子元器件商城为您提供BA3404F-E2由ROHM Semiconductor设计生产,在icgoo商城现货销售,并且可以通过原厂、代理商等渠道进行代购。 提供BA3404F-E2价格参考¥1.27-¥1.85以及ROHM SemiconductorBA3404F-E2封装/规格参数等产品信息。 你可以下载BA3404F-E2参考资料、Datasheet数据手册功能说明书, 资料中有BA3404F-E2详细功能的应用电路图电压和使用方法及教程。

产品参数 图文手册 常见问题
参数 数值
-3db带宽

-

产品目录

集成电路 (IC)半导体

描述

IC OPAMP GP 1.2MHZ 8SOP运算放大器 - 运放 4-36V 2 CHANNELS 70nA 0.7mA

产品分类

Linear - Amplifiers - Instrumentation, OP Amps, Buffer Amps集成电路 - IC

品牌

Rohm Semiconductor

产品手册

点击此处下载产品Datasheet

产品图片

rohs

符合RoHS无铅 / 符合限制有害物质指令(RoHS)规范要求

产品系列

放大器 IC,运算放大器 - 运放,ROHM Semiconductor BA3404F-E2-

数据手册

点击此处下载产品Datasheet

产品型号

BA3404F-E2

产品目录页面

点击此处下载产品Datasheet

产品种类

运算放大器 - 运放

供应商器件封装

8-SOP

共模抑制比—最小值

90 dB

关闭

No Shutdown

其它名称

BA3404F-E2CT

包装

剪切带 (CT)

压摆率

1.2 V/µs

商标

ROHM Semiconductor

增益带宽生成

1.2 MHz

增益带宽积

1.2MHz

安装类型

表面贴装

安装风格

SMD/SMT

封装

Reel

封装/外壳

8-SOIC(0.173",4.40mm 宽)

封装/箱体

SOP-8

工作温度

-40°C ~ 85°C

工作电源电压

4 V to 36 V

工厂包装数量

2500

放大器类型

通用

最大工作温度

+ 85 C

最小工作温度

- 40 C

标准包装

1

电压-电源,单/双 (±)

4 V ~ 36 V, ±2 V ~ 18 V

电压-输入失调

2mV

电流-电源

2mA

电流-输入偏置

70nA

电流-输出/通道

30mA

电源电流

2 mA

电路数

2

转换速度

1.2 V/us

输入偏压电流—最大

70 nA

输入补偿电压

2 mV

输出电流

30 mA

输出类型

-

通道数量

2 Channel

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PDF Datasheet 数据手册内容提取

Datasheet Operational Amplifiers Series Ground Sense Operational Amplifiers BA3404xxx ●General Description ●Packages W(Typ.)xD(Typ.) xH(Max.) BA3404 is a dual operational amplifier with input and SOP8 5.00mm x 6.20mm x 1.71mm output ground sense. Especially, BA3404 have wide SOP-J8 4.90mm x 6.00mm x 1.65mm operating voltage range +4V to +36V (single supply). MSOP8 2.90mm x 4.00mm x 0.90mm BA3404 have a good performance of slew rate and cross over distortion compare with BA2904. ●Key Specification  Wide Operating Supply Voltage ●Features (single supply): +4.0V to +36.0V  Operable with a single power supply (split supply): ±2.0V to ±18.0V  Wide operating supply voltage  Slew Rate: 1.2V/µs(Typ.)  Input and output are operable GND sense  Wide Temperature Range: -40°C to +85°C  Low supply current  Input Offset Current: 5nA (Typ.)  High open loop voltage gain  Input Offset Voltage: 5mV (Max.)  Internal ESD protection circuit ●Application  Current sense application  Buffer application amplifier  Active filter  Consumer electronics ●Block Diagrams VCC -IN OUT +IN VEE Figure 1. Simplified schematic ○Product structure:Silicon monolithic integrated circuit ○This product is not designed protection against radioactive rays. www.rohm.com TSZ02201-0RAR1G200140-1-2 © 2012 ROHM Co., Ltd. All rights reserved. 1/19 26.OCT.2012 Rev.001 TSZ22111・14・001

BA3404xxx Datasheet ●Pin Configuration(TOP VIEW) Pin No. Symbol 1 OUT1 OUT1 1 8 VCC 2 -IN1 3 +IN1 -IN1 2 CH1 7 OUT2 - + 4 VEE 5 +IN2 +IN1 3 6 -IN2 CH2 6 -IN2 + - 7 OUT2 VEE 4 5 +IN2 8 VCC Package SOP8 SOP-J8 MSOP8 BA3404F BA3404FJ BA3404FVM ●Ordering Information B A 3 4 0 4 x x x - x x Part Number. Package Packaging and forming specification BA3404xxx F : SOP8 E2: Embossed tape and reel FJ : SOP-J8 (SOP8/SOP-J8) FVM : MSOP8 TR: Embossed tape and reel (MSOP8) ●Line-up Supply Slew Rate Orderable Topr Current Package (Typ.) Part Number (Typ.) SOP8 Reel of 2500 BA3404F-E2 -40°C to +85°C 2.0mA 1.2V/µs SOP-J8 Reel of 2500 BA3404FJ-E2 MSOP8 Reel of 3000 BA3404FVM-TR ●Absolute Maximum Ratings (Ta=25℃) Parameter Symbol Ratings Unit Supply Voltage VCC-VEE +36 V SOP8 780*1*4 Power dissipation Pd SOP-J8 675*2*4 mW MSOP8 590*3*4 Differential Input Voltage *5 Vid +36 V Input Common-mode Voltage Range Vicm (VEE-0.3) to (VEE+36) V Operating Temperature Range Topr -40 to +85 ℃ Storage Temperature Range Tstg -55 to +150 ℃ Maximum Junction Temperature Tjmax +150 ℃ Note: Absolute maximum rating item indicates the condition which must not be exceeded. Application if voltage in excess of absolute maximum rating or use out of absolute maximum rated temperature environment may cause deterioration of characteristics. *1 To use at temperature above Ta=25℃ reduce 6.2mW/℃ *2 To use at temperature above Ta=25℃ reduce 5.4mW/℃ *3 To use at temperature above Ta=25℃ reduce 4.8mW/℃ *4 Mounted on a FR4 glass epoxy PCB(70mm×70mm×1.6mm). *5 The voltage difference between inverting input and non-inverting input is the differential input voltage. Then input terminal voltage is set to more than VEE. www.rohm.com TSZ02201-0RAR1G200140-1-2 © 2012 ROHM Co., Ltd. All rights reserved. 2/19 26.OCT.2012 Rev.001 TSZ22111・15・001

BA3404xxx Datasheet ●Electrical Characteristics ○BA3404 (Unless otherwise specified VCC=+15V, VEE=-15V, Ta=25℃) Limits Parameter Symbol Unit Condition Min. Typ. Max. Input Offset Voltage *6 Vio - 2 5 mV VOUT=0V, Vicm=0V Input Offset Current *6 Iio - 5 50 nA VOUT=0V, Vicm=0V Input Bias Current *6 Ib - 70 200 nA VOUT=0V, Vicm=0V RL≧2kΩ Large Signal Voltage Gain Av 88 100 - dB VOUT=±10V, Vicm=0V Maximum Output Voltage VOM ±13 ±14 - V RL≧2kΩ Input Common-mode Voltage Range Vicm -15 - 13 V VOUT=0V VOUT=0V Common-mode Rejection Ratio CMRR 70 90 - dB Vicm=-15V to +13V Ri≦10kΩ Power Supply Rejection Ratio PSRR 80 94 - dB VCC=+4V to +30V RL=∞, All Op-Amps Supply Current ICC - 2.0 3.5 mA VIN+=0V VIN+=1V, VIN-=0V Output Source Current Isource 20 30 - mA VOUT=+12V Output of one channel only VIN+=0V, VIN-=1V Output Sink Current Isink 10 20 - mA VOUT= -12V Output of one channel only Av=0dB, RL=2kΩ Slew rate SR - 1.2 - V/μs CL=100pF Unity Gain Frequency f - 1.2 - MHz RL=2kΩ T Gain Band Width GBW - 1.2 - MHz f=100kHz VOUT=10V , f=20kHz Total Harmonic Distortion THD+N - 0.1 - % P-P Av=0dB, RL=2kΩ Channel Separation CS - 100 - dB f=1kHz, input referred *6 Absolute value www.rohm.com TSZ02201-0RAR1G200140-1-2 © 2012 ROHM Co., Ltd. All rights reserved. 3/19 26.OCT.2012 Rev.001 TSZ22111・15・001

BA3404xxx Datasheet Description of Electrical Characteristics Described here are the terms of electric characteristics used in this datasheet. Items and symbols used are also shown. Note that item name and symbol and their meaning may differ from those on another manufacture’s document or general document. 1. Absolute maximum ratings Absolute maximum rating item indicates the condition which must not be exceeded. Application of voltage in excess of absolute maximum rating or use out of absolute maximum rated temperature environment may cause deterioration of characteristics. 1.1 Power supply voltage (VCC-VEE) Indicates the maximum voltage that can be applied between the positive power supply terminal and negative power supply terminal without deterioration or destruction of characteristics of internal circuit. 1.2 Differential input voltage (Vid) Indicates the maximum voltage that can be supplied between the non-inverting and inverting terminals without damaging the IC. 1.3 Input common-mode voltage range (Vicm) Indicates the maximum voltage that can be applied to non-inverting terminal and inverting terminal without deterioration or destruction of characteristics. Input common-mode voltage range of the maximum ratings not assures normal operation of IC. When normal Operation of IC is desired, the input common-mode voltage of characteristics item must be followed. 1.4 Power dissipation (Pd) Indicates the power that can be consumed by specified mounted board at the ambient temperature 25℃(normal temperature). As for package product, Pd is determined by the temperature that can be permitted by IC chip in the package (maximum junction temperature) and thermal resistance of the package. 2. Electrical characteristics 2.1 Input offset voltage (Vio) Indicates the voltage difference between non-inverting terminal and inverting terminal. It can be translated into the input voltage difference required for setting the output voltage at 0 V. 2.2 Input offset current (Iio) Indicates the difference of input bias current between the non-inverting and inverting terminals. 2.3 Input bias current (Ib) Indicates the current that flows into or out of the input terminal. It is defined by the average of input bias current at non-inverting terminal and input bias current at inverting terminal. 2.4 Large signal voltage gain (Av) Indicates the amplifying rate (gain) of output voltage against the voltage difference between non-inverting terminal and inverting terminal. It is normally the amplifying rate (gain) with reference to DC voltage. Av = (Output voltage fluctuation) / (Input offset fluctuation) 2.5 Maximum Output Voltage (VOM) Signifies the voltage range that can be output under specific output conditions. 2.6 Input common-mode voltage range (Vicm) Indicates the input voltage range under which the IC operates normally. 2.7 Common-mode rejection ratio (CMRR) Indicates the ratio of fluctuation of input offset voltage when in-phase input voltage is changed. It is normally the fluctuation of DC. CMRR = (Change of Input common-mode voltage)/(Input offset fluctuation) 2.8 Power supply rejection ratio (PSRR) Indicates the ratio of fluctuation of input offset voltage when supply voltage is changed. It is normally the fluctuation of DC. PSRR= (Change of power supply voltage)/(Input offset fluctuation) 2.9 Circuit current (ICC) Indicates the IC current that flows under specified conditions and no-load steady status. 2.10 Output source current/ output sink current (Isource/Isink) The maximum current that can be output under specific output conditions, it is divided into output source current and output sink current. The output source current indicates the current flowing out of the IC, and the output sink current the current flowing into the IC. www.rohm.com TSZ02201-0RAR1G200140-1-2 © 2012 ROHM Co., Ltd. All rights reserved. 4/19 26.OCT.2012 Rev.001 TSZ22111・15・001

BA3404xxx Datasheet 2.11 Slew Rate (SR) SR is a parameter that shows movement speed of operational amplifier. It indicates rate of variable output voltage as unit time. 2.12 Unity gain frequency (f ) T Indicates a frequency where the voltage gain of operational amplifier is 1. 2.13 Total harmonic distortion + Noise (THD+N) Indicates the fluctuation of input offset voltage or that of output voltage with reference to the change of output voltage of driven channel. 2.14 Gain Band Width (GBW) Indicates to multiply by the frequency and the gain where the voltage gain decreases 6dB/octave. www.rohm.com TSZ02201-0RAR1G200140-1-2 © 2012 ROHM Co., Ltd. All rights reserved. 5/19 26.OCT.2012 Rev.001 TSZ22111・15・001

BA3404xxx Datasheet ●Typical Performance Curves ○BA3404 1000 800 W] BA3404F m N [ BA3404FJ O 600 ATI BA3404FVM SIP S 400 DI R E W O P 200 0 85 0 25 50 75 100 125 AMBIENT TEMPERATURE [℃] Figure 2. Figure 3. Derating Curve Supply Current - Supply Voltage Figure 4. Figure 5. Supply Current - Ambient Temperature Maximum Output Voltage - Load Resistance (VCC/VEE=+15V/-15V, Ta=25℃) (*)The above data is measurement value of typical sample, it is not guaranteed. www.rohm.com TSZ02201-0RAR1G200140-1-2 © 2012 ROHM Co., Ltd. All rights reserved. 6/19 26.OCT.2012 Rev.001 TSZ22111・15・001

BA3404xxx Datasheet ○BA3404 Figure 6. Figure 7. Maximum Output Voltage – Supply Voltage Output Voltage - Output Current (VCC/VEE=+15V/-15V, Ta=25℃) Figure 8. Figure 9. Input Offset Voltage - Supply voltage Input Offset Voltage - Ambient Temperature (Vicm=0V, VOUT=0V) (Vicm=0V, VOUT=0V) (*)The above data is measurement value of typical sample, it is not guaranteed. www.rohm.com TSZ02201-0RAR1G200140-1-2 © 2012 ROHM Co., Ltd. All rights reserved. 7/19 26.OCT.2012 Rev.001 TSZ22111・15・001

BA3404xxx Datasheet ○BA3404 Figure 10. Figure 11. Input Bias Current - Supply Voltage Input Bias Current - Ambient Temperature (Vicm=0V, VOUT=0V) (Vicm=0V, VOUT=0V) Figure 12. Figure 13. Input Offset Current - Supply Voltage Input Offset Current - Ambient Temperature (Vicm=0V, VOUT=0V) (Vicm=0V, VOUT=0V) (*)The above data is measurement value of typical sample, it is not guaranteed. www.rohm.com TSZ02201-0RAR1G200140-1-2 © 2012 ROHM Co., Ltd. All rights reserved. 8/19 26.OCT.2012 Rev.001 TSZ22111・15・001

BA3404xxx Datasheet ○BA3404 Figure 15. Figure 14. Common Mode Rejection Ratio Input Offset Voltage - Ambient Temperature - Common Mode Input Voltage (VCC/VEE=+15V/-15V) (VCC/VEE=+2.5V/-2.5V) Figure 16. Figure 17. Common Mode Rejection Ratio Large Signal Voltage Gain - Ambient Temperature - Supply Voltage (RL=2kΩ) (VCC/VEE=+15V/-15V) (*)The above data is measurement value of typical sample, it is not guaranteed. www.rohm.com TSZ02201-0RAR1G200140-1-2 © 2012 ROHM Co., Ltd. All rights reserved. 9/19 26.OCT.2012 Rev.001 TSZ22111・15・001

BA3404xxx Datasheet ○BA3404 102 103 104 105 106 107 Figure 18. Figure 19. Large Signal Voltage Gain Voltage Gain・Phase - Frequency - Ambient Temperature (RL=2kΩ) (VCC=±15V) Figure 20. Figure 21. Slew Rate L-H - Supply Voltage Slew Rate H-L - Ambient Temperature (*)The above data is measurement value of typical sample, it is not guaranteed. www.rohm.com TSZ02201-0RAR1G200140-1-2 © 2012 ROHM Co., Ltd. All rights reserved. 10/19 26.OCT.2012 Rev.001 TSZ22111・15・001

BA3404xxx Datasheet ○BA3404 Figure 22. Figure 23. Total Harmonic Distoration - Output Voltage Equivalent Input Noise Voltage - Frequency (VCC/VEE=+4V/-4V, Av=0dB, (VCC/VEE=+15V/-15V, RS=100Ω, Ta=25℃) RL=2kΩ, 80kHz-LPF, Ta=25℃) (*)The above data is measurement value of typical sample, it is not guaranteed. www.rohm.com TSZ02201-0RAR1G200140-1-2 © 2012 ROHM Co., Ltd. All rights reserved. 11/19 26.OCT.2012 Rev.001 TSZ22111・15・001

BA3404xxx Datasheet ●Application Information NULL method condition for Test Circuit 1 VCC,VEE,EK,Vicm Unit: V Parameter VF S1 S2 S3 VCC VEE EK Vicm calculation Input Offset Voltage VF1 ON ON OFF 15 -15 0 0 1 Input Offset Current VF2 OFF OFF OFF 15 -15 0 0 2 VF3 OFF ON Input Bias Current OFF 15 -15 0 0 3 VF4 ON OFF VF5 15 -15 10 0 Large Signal Voltage Gain ON ON ON 4 VF6 15 -15 -10 0 Common-mode Rejection Ratio VF7 15 -15 0 -15 ON ON OFF 5 (Input common-mode Voltage Range) VF8 15 -15 0 13 Power Supply VF9 2 -2 0 0 ON ON OFF 6 Rejection Ratio VF10 15 -15 0 0 -Calculation- 1. Input Offset Voltage (Vio) VF1 Vio [V] 1 + Rf / Rs 0.1μF Rf=50kΩ 2. Input Offset Current (Iio) VF2-VF1 Iio  [A] 500kΩ 0.1μF Ri ×(1 + Rf / Rs) SW1 VCC EK +15V 3. Input Bias Current (Ib) Rs=50Ω VF4-VF3 Ri=10kΩ 500kΩ Ib  [A] DUT 2×Ri× (1 + Rf / Rs) Ri=10kΩ NULL SW3 Rs=50Ω 1000pF 4. Large Signal Voltage Gain (Av) Vicm RL V VF SW2 VEE Av 20×LogΔEK×(1+Rf/Rs) [dB] 50kΩ -15V VF5-VF6 Figure 24. Test circuit 1 (one channel only) 5. Common-mode Rejection Ration (CMRR) ΔVicm×(1+Rf/Rs) CMRR 20×Log [dB] VF8-VF7 6. Power supply rejection ratio (PSRR) ΔVcc×(1+Rf/Rs) PSRR 20×Log [dB] VF10-VF9 www.rohm.com TSZ02201-0RAR1G200140-1-2 © 2012 ROHM Co., Ltd. All rights reserved. 12/19 26.OCT.2012 Rev.001 TSZ22111・15・001

BA3404xxx Datasheet Switch Condition for Test Circuit 2 SW SW SW SW SW SW SW SW SW SW SW SW SW SW SW No. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 Supply Current OFF OFF OFF ON OFF ON OFF OFF OFF OFF OFF OFF OFF OFF High Level Output Voltage OFF OFF ON OFF OFF ON OFF OFF ON OFF OFF OFF ON OFF Low Level Output Voltage OFF OFF ON OFF OFF ON OFF OFF OFF OFF OFF OFF ON OFF Output Source Current OFF OFF ON OFF OFF ON OFF OFF OFF OFF OFF OFF OFF ON Output Sink Current OFF OFF ON OFF OFF ON OFF OFF OFF OFF OFF OFF OFF ON Slew Rate OFF OFF OFF ON OFF OFF OFF ON ON ON OFF OFF OFF OFF Gain Bandwidth Product OFF ON OFF OFF ON ON OFF OFF ON ON OFF OFF OFF OFF Equivalent Input Noise Voltage ON OFF OFF OFF ON ON OFF OFF OFF OFF ON OFF OFF OFF Input voltage SW4 SW5 R2 VH VCC A VL - t Time SW1 SW2 SW3 + Output voltage SW6 SW7 SW8 SW9 SW10 SW11 SW12 SW13 SW14 RS R1 90% SR=ΔV/Δt VEE VH C A ~ VIN- VIN+~ RL CL ~V V ΔV VOUT 10% VL Δt t Time Figure 25. Test Circuit 2 (each Op-Amp) Figure 26. Slew Rate Input Waveform VCC VCC OTHER R1//R2 R1//R2 CH VEE VEE R1 R2 R1 R2 VIN V V=O0.U5[TV1rms] V VOUT2 CS=20×log 100×VOUT1 VOUT2 Figure 27. Test Circuit 3 (Channel Separation) www.rohm.com TSZ02201-0RAR1G200140-1-2 © 2012 ROHM Co., Ltd. All rights reserved. 13/19 26.OCT.2012 Rev.001 TSZ22111・15・001

BA3404xxx Datasheet Application example ○Voltage follower Voltage gain is 0 dB. VCC This circuit controls output voltage (Vout) equal input voltage (Vin), and keeps Vout with stable because of high input impedance and low output impedance. Vout is shown next formula. Vout=Vin Vout Vin VEE Figure 28. Voltage follower circuit ○Inverting amplifier R2 VCC R1 For inverting amplifier, Vin is amplified by voltage gain Vin decided R1 and R2, and phase reversed voltage is output. Vout Vout is shown next expression. Vout=-(R2/R1)・Vin Input impedance is R1. R1//R2 VEE Figure 29. Inverting amplifier circuit ○Non-inverting amplifier R1 R2 For non-inverting amplifier, Vin is amplified by voltage gain decided R1 and R2, and phase is same with Vin. VCC Vout is shown next expression. Vout= (1+R2/R1)・Vin This circuit performes high input impedance because Input impedance is operational amplifier’s input Vout Impedance. Vin VEE Figure 30. Non-inverting amplifier circuit www.rohm.com TSZ02201-0RAR1G200140-1-2 © 2012 ROHM Co., Ltd. All rights reserved. 14/19 26.OCT.2012 Rev.001 TSZ22111・15・001

BA3404xxx Datasheet ●Power Dissipation Power dissipation (total loss) indicates the power that can be consumed by IC at Ta=25℃(normal temperature). IC is heated when it consumed power, and the temperature of IC chip becomes higher than ambient temperature. The temperature that can be accepted by IC chip depends on circuit configuration, manufacturing process, and consumable power is limited. Power dissipation is determined by the temperature allowed in IC chip (maximum junction temperature) and thermal resistance of package (heat dissipation capability). The maximum junction temperature is typically equal to the maximum value in the storage temperature range. Heat generated by consumed power of IC radiates from the mold resin or lead frame of the package. The parameter which indicates this heat dissipation capability (hardness of heat release) is called thermal resistance, represented by the symbol θja℃/W.The temperature of IC inside the package can be estimated by this thermal resistance. Figure 31. (a) shows the model of thermal resistance of the package. Thermal resistance θja, ambient temperature Ta, maximum junction temperature Tjmax, and power dissipation Pd can be calculated by the equation below: θ ja = (Tjmax-Ta) / Pd ℃/W ・・・・・ (Ⅰ) Derating curve in Figure 31. (b) indicates power that can be consumed by IC with reference to ambient temperature. Power that can be consumed by IC begins to attenuate at certain ambient temperature. This gradient is determined by thermal resistance θja. Thermal resistance θja depends on chip size, power consumption, package, ambient temperature, package condition, wind velocity, etc even when the same of package is used. Thermal reduction curve indicates a reference value measured at a specified condition. Figure 32. (c) show a derating curve for an example of BA3404. Power dissLipSaIのtio消n 費of 電LS力I [W] Pd (max) θja=(Tjmax-Ta)/Pd ℃/W P2 θja2 < θja1 Ambient temp周e囲ra温tu度re Ta [℃] θ' ja2 P1 θ ja2 Tj ' (max) Tj (max) θ' ja1 θ ja1 Chip surface temperature チップ表面温度 Tj [℃] Power dissi消pa費ti電on力 P dP[ [WW]] 0 25 50 75 100 125 150 Ambient tem周pe囲ra温tur度e Ta [℃] (a)Thermal resistance (b) Derating curve Figure 31. Thermal resistance and derating 1000 W] 800 780mW(*7) BA3404F m W]d [ 675mW(*8) BA3404FJ d [mON P600 590mW(*9) BA3404FVM PTI  A 失P 損SSI400 量DI 容ER W200 O P 0 0 25 50 75 100 125 Amb周ien囲t te温m度pe raTtuar e[℃ Ta] [℃] (c)BA3404 (*7) (*8) (*9) Unit 6.2 5.4 4.8 mW/℃ When using the unit above Ta=25℃, subtract the value above per degree ℃. Permissible dissipation is the value when FR4 glass epoxy board 70mm ×70mm ×1.6mm (cooper foil area below 3%) is mounted. Figure 32. Derating curve www.rohm.com TSZ02201-0RAR1G200140-1-2 © 2012 ROHM Co., Ltd. All rights reserved. 15/19 26.OCT.2012 Rev.001 TSZ22111・15・001

BA3404xxx Datasheet ●Operational Notes 1) Unused circuits VCC When there are unused circuits, it is recommended that they be connected as in Figure 33. setting the non-inverting input terminal to a potential within the + in-phase input voltage range (Vicm). Connect - to Vicm Vicm 2) Input voltage Applying VEE+36V(BA3404 ) to the input terminal is possible without causing VEE deterioration of the electrical characteristics or destruction, irrespective of the supply voltage. However, this does not ensure normal circuit operation. Please note that the circuit operates normally only when the input voltage is within the Figure 33. The example of common mode input voltage range of the electric characteristics. application circuit for unused op-amp 3) Power supply (single / dual) The op-amp operates when the voltage supplied is between VCC and VEE Therefore, the single supply op-mp can be used as a dual supply op-amp as well. 4) Power dissipation (Pd) Using the unit in excess of the rated power dissipation may cause deterioration in electrical characteristics due to the rise in chip temperature, including reduced current capability. Therefore, please take into consideration the power dissipation (Pd) under actual operating conditions and apply a sufficient margin in thermal design. Refer to the thermal derating curves for more information. 5) Short-circuit between pins and erroneous mounting Incorrect mounting may damage the IC. In addition, the presence of foreign substances between the outputs, the output and the power supply, or the output and GND may result in IC destruction. 6) Operation in a strong electromagnetic field Operation in a strong electromagnetic field may cause malfunctions. 7) Radiation This IC is not designed to withstand radiation. 8) IC handling Applying mechanical stress to the IC by deflecting or bending the board may cause fluctuation of the electrical characteristics due to piezo resistance effects. 9) IC operation The output stage of the IC is configured using Class C push-pull circuits. Therefore, when the load resistor is connected to the middle potential of VCC and VEE, crossover distortion occurs at the changeover between discharging and charging of the output current. Connecting a resistor between the output terminal and GND, and increasing the bias current for Class A operation will suppress crossover distortion. 10) Board inspection Connecting a capacitor to a pin with low impedance may stress the IC. Therefore, discharging the capacitor after every process is recommended. In addition, when attaching and detaching the jig during the inspection phase, ensure that the power is turned OFF before inspection and removal. Furthermore, please take measures against ESD in the assembly process as well as during transportation and storage. 11) Output capacitor Discharge of the external output capacitor to VCC is possible via internal parasitic elements when VCC is shorted to VEE, causing damage to the internal circuitry due to thermal stress. Therefore, when using this IC in circuits where oscillation due to output capacitive load does not occur, such as in voltage comparators, use an output capacitor with a capacitance less than 0.1μF. Status of this document The Japanese version of this document is formal specification. A customer may use this translation version only for a reference to help reading the formal version. If there are any differences in translation version of this document formal version takes priority. www.rohm.com TSZ02201-0RAR1G200140-1-2 © 2012 ROHM Co., Ltd. All rights reserved. 16/19 26.OCT.2012 Rev.001 TSZ22111・15・001

BA3404xxx Datasheet ●Physical Dimensions Tape and Reel Information SOP8 <Tape and Reel information> 5.0±0.2 (MAX 5.35 include BURR) Tape Embossed carrier tape 8 7 6 5 4°+−64°° Quantity 2500pcs ±6.20.3 ±4.40.2 0.3MIN ±0.90.15 Dofi rfeecetdion E(2Treheel odnir ethcteio lne fits h tahned 1 apnind oyfo pur opduull cot uist tahte t htaep uep opne rt hleef tr iwghhte hna ynodu hold ) 1 2 3 4 0.595 ±1.50.1 S 0.17-+00..015 0.11 1.27 Direction of feed 0.42±0.1 1pin (Unit : mm) Reel ∗ Order quantity needs to be multiple of the minimum quantity. SOP-J8 <Tape and Reel information> 4.9±0.2 (MAX 5.25 include BURR) Tape Embossed carrier tape 4°+−64°° Quantity 2500pcs 8 7 6 5 ±6.00.3 ±3.90.2 0.45MIN Dofi rfeecetdion E(2Treheel odnir ethcteio lne fits h tahned 1 apnind oyfo pur opduull cot uist tahte t htaep uep opne rt hleef tr iwghhte hna ynodu hold ) 1 2 3 4 0.545 0.2±0.1 S ±1.3750.1 0.175 1.27 0.42±0.1 Direction of feed 0.1 S 1pin (Unit : mm) Reel ∗ Order quantity needs to be multiple of the minimum quantity. MSOP8 <Tape and Reel information> (MAX 3.252 .i9n±c0lu.1de BURR) Tape Embossed carrier tape ±4.00.2 ±2.80.1 8765 4°+−64°° ±0.290.15 ±0.60.2 QDofiu rfeaecnettdiiotyn 3T(0RTre0he0elp odcnirs ethcetio lenf tis h tahned 1 apnind oyfo pur opduull cot uist tahte t htaep uep opne rt hrieg hritg whth heann ydou hold ) 1 234 0.475 1PIN MARK 0.145+–00..0035 1pin S X A M 0.9 0.22+–00..0045 ±0.750.05 ±0.080.05 0.65 0.08S Direction of feed (Unit : mm) Reel ∗ Order quantity needs to be multiple of the minimum quantity. www.rohm.com TSZ02201-0RAR1G200140-1-2 © 2012 ROHM Co., Ltd. All rights reserved. 17/19 26.OCT.2012 Rev.001 TSZ22111・15・001

BA3404xxx Datasheet ●Marking Diagrams SOP8(TOP VIEW) SOP-J8(TOP VIEW) Part Number Marking Part Number Marking LOT Number LOT Number 1PIN MARK 1PIN MARK MSOP8(TOP VIEW) Part Number Marking LOT Number 1PIN MARK Product Name Package Type Marking F SOP8 BA3404 FJ SOP-J8 3404 FVM MSOP8 ●Land pattern data all dimensions in mm Land pitch Land space Land length Land width PKG e MIE ≧ℓ 2 b2 SOP8 1.27 4.60 1.10 0.76 SOP-J8 1.27 3.90 1.35 0.76 MSOP8 0.65 2.62 0.99 0.35 MIE e 2 b ℓ2 www.rohm.com TSZ02201-0RAR1G200140-1-2 © 2012 ROHM Co., Ltd. All rights reserved. 18/19 26.OCT.2012 Rev.001 TSZ22111・15・001

BA3404xxx Datasheet ●Revision History Date Revision Changes 2012.10.22 001 New Release www.rohm.com TSZ02201-0RAR1G200140-1-2 © 2012 ROHM Co., Ltd. All rights reserved. 19/19 26.OCT.2012 Rev.001 TSZ22111・15・001

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