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TSH24IDT产品简介:
ICGOO电子元器件商城为您提供TSH24IDT由STMicroelectronics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。 TSH24IDT价格参考。STMicroelectronicsTSH24IDT封装/规格:线性 - 放大器 - 仪表,运算放大器,缓冲器放大器, 通用 放大器 4 电路 14-SO。您可以下载TSH24IDT参考资料、Datasheet数据手册功能说明书,资料中有TSH24IDT 详细功能的应用电路图电压和使用方法及教程。
TSH24IDT 是由 STMicroelectronics(意法半导体)生产的一款高性能仪表放大器,属于线性 - 放大器 - 仪表、运算放大器、缓冲器放大器类别。以下是其主要应用场景: 1. 工业自动化与控制 - TSH24IDT 可用于工业传感器信号的放大和处理,例如压力传感器、温度传感器或应变片等微弱信号的采集。其高共模抑制比 (CMRR) 和低偏移特性使其非常适合在嘈杂的工业环境中使用。 - 在可编程逻辑控制器 (PLC) 和数据采集系统中,该放大器可用于信号调理模块,以提高测量精度。 2. 医疗设备 - 在医疗电子领域,TSH24IDT 能够精确放大生物电信号,如心电图 (ECG)、脑电图 (EEG) 或肌电图 (EMG) 等微弱信号。其低噪声和高精度特性保证了信号的质量。 - 它还适用于便携式医疗设备,例如血压计、血糖仪或脉搏血氧仪。 3. 音频信号处理 - TSH24IDT 的高增益精度和低失真性能使其适合用于音频信号的前置放大,尤其是在需要高质量音频处理的应用中,例如麦克风信号放大或音频混音器。 4. 汽车电子 - 在汽车应用中,TSH24IDT 可用于车载传感器信号放大,例如胎压监测系统 (TPMS)、发动机振动监测或悬架系统的位移检测。 - 其宽工作温度范围(-40°C 至 +125°C)使其能够适应汽车环境中的极端温度条件。 5. 测试与测量设备 - TSH24IDT 可用于精密测量仪器,例如数字万用表 (DMM)、示波器或信号发生器。其高输入阻抗和低失调电压特性有助于提高测量的准确性。 6. 消费电子产品 - 在智能家居设备中,TSH24IDT 可用于环境传感器(如温湿度传感器、气体传感器)的信号放大。 - 它还可应用于便携式电子产品,如健身追踪器或智能手表中的运动传感器信号处理。 总结 TSH24IDT 凭借其高精度、低噪声和高共模抑制比的特点,广泛应用于需要精确信号放大的场景。无论是工业自动化、医疗设备还是消费电子产品,它都能提供可靠的性能支持。
| 参数 | 数值 |
| -3db带宽 | - |
| 产品目录 | 集成电路 (IC)半导体 |
| 描述 | IC OPAMP GP 25MHZ 14SO运算放大器 - 运放 Quad Hi-Performance |
| 产品分类 | Linear - Amplifiers - Instrumentation, OP Amps, Buffer Amps集成电路 - IC |
| 品牌 | STMicroelectronics |
| 产品手册 | |
| 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,STMicroelectronics TSH24IDT- |
| 数据手册 | |
| 产品型号 | TSH24IDT |
| 产品目录页面 | |
| 产品种类 | 运算放大器 - 运放 |
| 供应商器件封装 | 14-SO |
| 共模抑制比—最小值 | 80 dB |
| 关闭 | No Shutdown |
| 其它名称 | 497-2321-2 |
| 其它有关文件 | http://www.st.com/web/catalog/sense_power/FM123/SC61/SS1378/PF65494?referrer=70071840http://www.st.com/web/catalog/sense_power/FM123/SC61/SS1612/PF65494?referrer=70071840 |
| 包装 | 带卷 (TR) |
| 压摆率 | 15 V/µs |
| 双重电源电压 | +/- 3 V, +/- 5 V, +/- 9 V, +/- 12 V |
| 商标 | STMicroelectronics |
| 增益带宽生成 | 25 MHz |
| 增益带宽积 | 25MHz |
| 安装类型 | 表面贴装 |
| 安装风格 | SMD/SMT |
| 封装 | Reel |
| 封装/外壳 | 14-SOIC(0.154",3.90mm 宽) |
| 封装/箱体 | SO-14 |
| 工作温度 | -40°C ~ 125°C |
| 工作电源电压 | 3 V to 30 V, +/- 1.5 V to +/- 15 V |
| 工厂包装数量 | 2500 |
| 技术 | Bipolar |
| 放大器类型 | General Purpose Amplifier |
| 最大双重电源电压 | +/- 15 V |
| 最大工作温度 | + 125 C |
| 最小双重电源电压 | +/- 1.5 V |
| 最小工作温度 | - 40 C |
| 标准包装 | 2,500 |
| 电压-电源,单/双 (±) | 3 V ~ 30 V, ±1.5 V ~ 15 V |
| 电压-输入失调 | 2.5mV |
| 电流-电源 | 2.15mA |
| 电流-输入偏置 | 100nA |
| 电流-输出/通道 | 37mA |
| 电源电流 | 2.75 mA |
| 电路数 | 4 |
| 系列 | TSH24 |
| 转换速度 | 15 V/us |
| 输入偏压电流—最大 | 650 nA |
| 输入参考电压噪声 | 14 nV |
| 输入补偿电压 | 2.5 mV |
| 输出电流 | 40 mA |
| 输出类型 | - |
| 通道数量 | 4 Channel |
PDF Datasheet 数据手册内容提取
TSH24 HIGH PERFORMANCE QUAD BIPOLAR OPERATIONAL AMPLIFIER n HIGH GAIN BANDWIDTH PRODUCT : 25MHz n HIGH SLEW RATE : 15V/m s n SINGLE OR DUAL SUPPLY OPERATION : 3V TO 30V (±1.5V to ±15V) n LOW VOLTAGE NOISE : 14nV/(cid:214) Hz N n NO PHASE INVERSION DIP14 n (Plastic Package) ESD TOLERANCE : 2kV n LATCH-UP IMMUNITY n SPICE MACROMODEL INCLUDED IN THIS SPECIFICATION D SO14 DESCRIPTION (Plastic Micropackage) TheTSH24 is a quad bipolar operational amplifier offering a single supply operation from 3V to 30V ORDER CODE with very good performances : medium speed (25MHz), unity gain stability and low noise. Package Part Number Temperature Range N D The TSH24 is therefore an enhanced replacement of standard dual operational amplifiers. TSH24I -40°C, +125°C • • N = Dual in Line Package (DIP) D = Small Outline Package (SO) - also available in Tape & Reel (DT) PIN CONNECTIONS (top view) (cid:79)(cid:117)(cid:116)(cid:112)(cid:117)(cid:116)(cid:32)(cid:49) (cid:49) (cid:49)(cid:52) (cid:79)(cid:117)(cid:116)(cid:112)(cid:117)(cid:116)(cid:32)(cid:52) (cid:73)(cid:110)(cid:118)(cid:101)(cid:114)(cid:116)(cid:105)(cid:110)(cid:103)(cid:32)(cid:73)(cid:110)(cid:112)(cid:117)(cid:116)(cid:32)(cid:49) (cid:50) (cid:45) (cid:45) (cid:49)(cid:51) (cid:73)(cid:110)(cid:118)(cid:101)(cid:114)(cid:116)(cid:105)(cid:110)(cid:103)(cid:32)(cid:73)(cid:110)(cid:112)(cid:117)(cid:116)(cid:32)(cid:52) (cid:78)(cid:111)(cid:110)(cid:45)(cid:105)(cid:110)(cid:118)(cid:101)(cid:114)(cid:116)(cid:105)(cid:110)(cid:103)(cid:32)(cid:73)(cid:110)(cid:112)(cid:117)(cid:116)(cid:32)(cid:49) (cid:51) (cid:43) (cid:43) (cid:49)(cid:50) (cid:78)(cid:111)(cid:110)(cid:45)(cid:105)(cid:110)(cid:118)(cid:101)(cid:114)(cid:116)(cid:105)(cid:110)(cid:103)(cid:32)(cid:73)(cid:110)(cid:112)(cid:117)(cid:116)(cid:32)(cid:52) (cid:86)(cid:67)(cid:32)(cid:32)(cid:67)(cid:32)(cid:32)(cid:32)(cid:43) (cid:52) (cid:49)(cid:49) (cid:86)(cid:67)(cid:67)(cid:45) (cid:78)(cid:111)(cid:110)(cid:45)(cid:105)(cid:110)(cid:118)(cid:101)(cid:114)(cid:116)(cid:105)(cid:110)(cid:103)(cid:32)(cid:73)(cid:110)(cid:112)(cid:117)(cid:116)(cid:32)(cid:50) (cid:53) (cid:43) (cid:43) (cid:49)(cid:48) (cid:78)(cid:111)(cid:110)(cid:45)(cid:105)(cid:110)(cid:118)(cid:101)(cid:114)(cid:116)(cid:105)(cid:110)(cid:103)(cid:32)(cid:73)(cid:110)(cid:112)(cid:117)(cid:116)(cid:32)(cid:51) (cid:45) (cid:45) (cid:73)(cid:110)(cid:118)(cid:101)(cid:114)(cid:116)(cid:105)(cid:110)(cid:103)(cid:32)(cid:73)(cid:110)(cid:112)(cid:117)(cid:116)(cid:32)(cid:50) (cid:54) (cid:57) (cid:73)(cid:110)(cid:118)(cid:101)(cid:114)(cid:116)(cid:105)(cid:110)(cid:103)(cid:32)(cid:73)(cid:110)(cid:112)(cid:117)(cid:116)(cid:32)(cid:51) (cid:79)(cid:117)(cid:116)(cid:112)(cid:117)(cid:116)(cid:32)(cid:50) (cid:55) (cid:56) (cid:79)(cid:117)(cid:116)(cid:112)(cid:117)(cid:116)(cid:32)(cid:51) November 2001 1/11
TSH24 SCHEMATIC DIAGRAM (1/4 TSH24) ABSOLUTE MAXIMUM RATINGS Symbol Parameter Value Unit VCC Supply Voltage ±18 to 36 V Vid Differential Input Voltage 1) ±36 V Vi Input Voltage (see note 1) ±18 V Output Short-circuit Duration 2) Infinite Toper Operating Free-Air Temperature Range -40 to +125 °C Tj Maximum Junction Temperature +150 °C Tstg Storage Temperature Range -65 to +150 °C ptot Maximum Power Dissipation (see note 2) 500 mW 1. Either or both input voltages must not exceed the magnitude of VCC+ or VCC- 2. Power dissipation must be considered to ensure maximum junction temperature (Tj) is not exceeded OPERATING CONDITIONS Symbol Parameter Value Unit VCC Supply Voltage 3 to 30 V Vid 0 mV Avd RL = 2kW 100 dB Icc No load, each amplifier 2 mA Vicm -15.2 to 13.8 V VOH RL = 2kW +13.9 V VOL RL = 2kW -13.9 V Isink Vo = 0V 40 mA Isource Vo = 0V 40 mA GBP RL = 2kW, CL = 100pF 34 MHz SR RL = 2kW, CL = 100pF 10 V/m s ˘ m RL = 2kW, CL = 100pF 36 Degrees ˘ m RL = 2kW, CL = 300pF 26 Degrees 2/11
TSH24 ELECTRICAL CHARACTERISTICS V + = 15V, V - = -15V, T = 25°C (unless otherwise specified) CC cc amb Symbol Parameter Min. Typ. Max. Unit Input Offset Voltage (V = 0V, V = 0V) ic o mV Vcc+ = +15V, Vcc- = -15V 2.5 V io T £ T £ T 3.5 min amb max Vcc+ = +5V, Vcc- = 0V 2.5 D Vio Input Offset Voltage Drift (Vic = 0V, Vo = 0V, T = -40, +85°C) 2 m V/°C Iio Input Offset Current (Vic = 0V, Vo = 0V) 3 65 nA Iib Input Bias Current (Vic = 0V, Vo = 0V) 100 650 nA Vcc- to V Vicm Common Mode Input Voltage Range Vcc+-1.8 A Large Signal Voltage Gain (RL = 2kW , Vo = 0V to +10V 32 100 V/mV vd T £ T £ T 20 min amb max Output Voltage Swing (Vid = ±1V) Vcc+ = +15V, Vcc- = -15V R = 2kW V V L OH 13.4 13.9 V OL -13.9 -13.5 ±Vopp RL =10kW VOH 13.4 14 V -14.7 -14.1 OL Vcc+=+5V, Vcc-=0V R = 2kW V 3.7 L OH 0.15 0.2 V OL Output Short Circuit Current mA Io (Vid = ±1V, Vo = 0V) Source 25 37 Sink 25 37 CMR Common Mode Rejection Ratio (Vic = -15V to +13.2V) 80 100 dB Supply Voltage Rejection Ratio dB SVR Vcc+/Vcc- = +15V/-15V to +5V/-5V 90 105 Supply Current (V = 0V, no load, each amplifier) o mA Vcc+ = +15V, Vcc- = -15V 2.15 2.75 I cc T £ T £ T 3 min amb max Vcc+=+5V, Vcc-=0V 2.75 Slew Rate V/m s SR (Vi = -10V to +10V, CL = 100pF, RL = 2kW , AV = +1) 8 15 GBP Gain Bandwith Product (f = 100kHz, RL = 2kW , CL = 100pF) 17 25 MHz B Unity Gain Bandwith (Open loop) 5 MHz ˘ m Phase Margin RL = 2kW 50 Degrees R = 2kW , C = 100pF 40 L L nV en Equivalent Input Noise Voltage (Rs = 100W , f = 1kHz) 14 ------------ Hz Vo1/Vo2 Channel Separation (f = 20Hz to 20kHz) 120 dB Total Harmonic Distortion THD (Vcc = ±15V, f = 1kHz, AVCL = 20dB, RL = 600W , Vo = 3Vrms) 0.003 % 3/11
TSH24 MACROMODEL * AMPLIFYING STAGE ** Standard Linear Ics Macromodels, 1993. FIP 5 19 VOFP 6.708333E+02 CONNECTIONS : FIN 5 19 VOFN 6.708333E+02 * 1 INVERTING INPUT GVNEG 5 19 5 13 1.395908E-05 * 2 NON-INVERTING INPUT GVPOS 5 19 4 13 1.395908E-05 * 3 OUTPUT RG1 19 5 8.056996E+04 * 4 POSITIVE POWER SUPPLY RG2 19 4 8.056996E+04 * 5 NEGATIVE POWER SUPPLY CC 19 29 1.100000E-08 .SUBCKT TSH24 1 3 2 4 5 (analog) HZTP 30 29 VOFP 6.545046E+01 ******************************************************** HZTN 5 30 VOFN 6.545046E+01 .MODEL MDTH D IS=1E-8 KF=7.976636E-15 DOPM 19 22 MDTH 400E-12 CJO=10F DONM 21 19 MDTH 400E-12 * INPUT STAGE HOPM 22 28 VOUT 4.054054E+03 CIP 2 5 1.200000E-11 VIPM 28 4 1.500000E+02 CIN 1 5 1.200000E-11 HONM 21 27 VOUT 4.054054E+03 EIP 10 5 2 5 1 VINM 5 27 1.500000E+02 EIN 16 5 1 5 1 RPM1 5 80 1E+06 RIP 10 11 1.083333E+00 RPM2 4 80 1E+06 RIN 15 16 1.083333E+00 GAVPH 5 82 19 80 6.00E-07 RIS 11 15 8.942641E+00 RAVPHGH 82 4 3333222 DIP 11 12 MDTH 400E-12 RAVPHGB 82 5 3333222 DIN 15 14 MDTH 400E-12 RAVPHDH 82 83 1000000 VOFP 12 13 DC 0 RAVPHDB 82 84 1000000 VOFN 13 14 DC 0 CAVPHH 4 83 0.12243E-12 IPOL 13 5 2.400000E-04 CAVPHB 5 84 0.12243E-12 CPS 11 15 10.5E-09 EOUT 26 23 82 5 1 DINN 17 13 MDTH 400E-12 VOUT 23 5 0 VIN 17 5 -0.200000e+00 ROUT 26 3 2.472597E+01 DINR 15 18 MDTH 400E-12 COUT 3 5 1.000000E-12 VIP 4 18 1.800000E+00 DOP 19 25 MDTH 400E-12 FCP 4 5 VOFP 7.750000E+00 VOP 4 25 1.824860E+00 FCN 5 4 VOFN 7.750000E+00 DON 24 19 MDTH 400E-12 FIBP 2 5 VOFN 5.000000E-04 VON 24 5 1.824860E+00 FIBN 5 1 VOFP 5.000000E-04 .ENDS 4/11
TSH24 APPLICATIONS INFORMATION TSH24 IN COMPARATOR APPLICATION The TSH24 is a quad high performances opera- Displayed curves below show the device re- tional amplifier featuring speed of 30MHz and sin- sponse in standard comparator configuration with- gle supply operation from 3V to 30V. out external components. Most of operational amplifiers are not suited for Transition speed : Typical transition speed under comparator use because of low transition speed, a single 5V supply voltage is about 2m s from output signal incompatible with standard logics 50mV overdrive. V min. is 3.7V and V max. is level and mainly, phase inversion. 0.2V (2kW load) mOaHking it compatible wOLith stan- The phase inversion occures when a strong differ- dard logic families. ential signal is applied to the device inputs. The Figures 3 & 4 show output signal transition for a output level is then inverted and shows a wrong 50mV and 250mV input signal overdrive respec- logic state. The TSH24 does not present this prob- tively of 3m s and 1m s. lematic behaviour. Figure 1 : Basic comparator application Figure 2 : Operating conditions (cid:43)(cid:53)(cid:86) (cid:86)(cid:105)(cid:110)(cid:43) (cid:84)(cid:83)(cid:72)(cid:50)(cid:52) (cid:86)(cid:111)(cid:117)(cid:116) (cid:86)(cid:114)(cid:101)(cid:102) (cid:50)(cid:107)W Figure 3 : Transition speed@ 50mV overdrive Figure 4 : Transition speed@ 250mV overdrive 5/11
TSH24 PHASE INVERSION At high differential input voltage, the TSH24 keeps Figure 5 & 6 show the behaviour in follower stage the right output level thanks to its specific input with saturation output of TSH24 versus 15MHz structures. standard operational amplifier. The advantage is obvious on the following figures and can be also an advantage in linear use when saturation might occure. Figure 5 : Behaviour with TSH24 Figure 6 : Saturation behaviour with 15MHz standard operational amplifier V) 8 (o Vid V 6 V), V (id 4 s, 2 e ag 0 olt V -2 ut Vo up -4 O & -6 ut np -8 I Time (50m s/div) 6/11
TSH24 INPUT OFFSET VOLTAGE DRIFT VERSUS SUPPLY CURRENT VERSUS SUPPLY TEMPERATURE VOLTAGE (ALL OP-AMPS) 0.4 0.3 V) m 0.2 e, V (io 0.1 g a olt 0 V et Offs -0.1 put -0.2 n I -0.3 -0.4 -50 -25 0 25 50 75 100 125 Temperature, Tamb (˚C) SINK CURRENT SOURCE CURRENT 50 A) 45 m ent, I (sink 433050 Curr 25 Sink 20 ut 15 Outp 10 TVacmc b= =± 1255V˚C 5 Vid = 1V 0 -15 -12 -9 -6 -3 0 3 6 9 12 15 Applied Output Voltage, Vo (V) SLEW RATE @ 30V SLEW RATE @ 3V 20 0.8 15 Tamb = 25˚C 0.6 Tamb = 25˚C Voltage, V (V)o 1050 RCVAcvLLc === = +21 ±1k01W05pVF oltage, V (V)o 00..420 VARCcvLL c = === + 21+1k02W0Vp/F-1V put -5 ut V -0.2 Out -10 utp -0.4 O -15 -0.6 -20 -0.8 Time (0.5m s/div) Time (0.2m s/div) 7/11
TSH24 LARGE SIGNAL VOLTAGE GAIN @NO LOAD LARGE SIGNAL VOLTAGE GAIN @ LOAD 20 15 V) 10 (o ge, V 5 Tamb = 25˚C Volta -05 NVcoc L=o ±a1d5V ut utp -10 O -15 -20 -0.4-0.3 -0.2 -0.1 0 0.1 0.2 0.3 0.4 Differential Input Voltage, Vid (mV) SMALL SIGNAL RESPONSE @ 30V SMALL SIGNAL RESPONSE @ 3V UNITY GAIN BANDWITH @ 30V UNITY GAIN BANDWITH @ 3V 45 40 Tamb = 25˚C Vcc = +2V/-1V 35 AVCL = 100 RL = 2kW 30 CL = 100pF 0 Voltage Gain (dB) 221505 Gain 369000 Phase (degrees) 10 120 Phase 5 150 0 180 -5 10k 100k 1M 10M Frequency, F (Hz) 8/11
TSH24 CLOSED LOOP BANDWITH @ 30V CLOSED LOOP BANDWITH @ 3V 21 21 18 Tamb = 25˚C 18 Tamb = 25˚C 1152 AVCL = +5 ACVRcVLLcC == L= 21= ±k0 51W0,5p2VF,1 1152 AVCL = +5 CRVAcVLLcC == L= =21 +k0 52W0,Vp2/F,-11V Voltage Gain (dB) 963 AVCL = +2 Voltage Gain (dB) 963 AVCL = +2 0 AVCL = +1 0 AVCL = +1 -3 -3 -6 -6 -9 -9 100k 1M 10M 100k 1M 10M Frequency, F (Hz) Frequency, F (Hz) 9/11
TSH24 PACKAGE MECHANICAL DATA 14 PINS - PLASTIC DIP Millimeters Inches Dim. Min. Typ. Max. Min. Typ. Max. a1 0.51 0.020 B 1.39 1.65 0.055 0.065 b 0.5 0.020 b1 0.25 0.010 D 20 0.787 E 8.5 0.335 e 2.54 0.100 e3 15.24 0.600 F 7.1 0.280 i 5.1 0.201 L 3.3 0.130 Z 1.27 2.54 0.050 0.100 10/11
TSH24 PACKAGE MECHANICAL DATA 14 PINS - PLASTIC MICROPACKAGE (SO) L G c1 C 2 A a b e s 1 1 a b e3 E D M 14 8 F 1 7 Millimeters Inches Dim. Min. Typ. Max. Min. Typ. Max. A 1.75 0.069 a1 0.1 0.2 0.004 0.008 a2 1.6 0.063 b 0.35 0.46 0.014 0.018 b1 0.19 0.25 0.007 0.010 C 0.5 0.020 c1 45° (typ.) D (1) 8.55 8.75 0.336 0.344 E 5.8 6.2 0.228 0.244 e 1.27 0.050 e3 7.62 0.300 F (1) 3.8 4.0 0.150 0.157 G 4.6 5.3 0.181 0.208 L 0.5 1.27 0.020 0.050 M 0.68 0.027 S 8° (max.) Note : (1) D and F do not include mold flash or protrusions - Mold flash or protrusions shall not exceed 0.15mm (.066 inc) ONLY FOR DATA BOOK. Information furnished is believed to be accurate and reliable. However, STMicroelectronics assumes no responsibility for the consequences of use of such information nor for any infringement of patents or other rights of third parties which may result from its use. No license is granted by implication or otherwise under any patent or patent rights of STMicroelectronics. Specifications mentioned in this publication are subject to change without notice. This publication supersedes and replaces all information previously supplied. STMicroelectronics products are not authorized for use as critical components in life support devices or systems without express written approval of STMicroelectronics. © The ST logo is a registered trademark of STMicroelectronics © 2001 STMicroelectronics - Printed in Italy - All Rights Reserved STMicroelectronics GROUP OF COMPANIES Australia - Brazil - Canada - China - Finland - France - Germany - Hong Kong - India - Israel - Italy - Japan - Malaysia Malta - Morocco - Singapore - Spain - Sweden - Switzerland - United Kingdom - United States © http://www.st.com 11/11
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