特性
- 5MHz Gain bandwidth product @ AV = 100
- 13MHz -3dB unity gain bandwidth
- 900µA typical supply current
- 150µV maximum offset voltage (8 Ld SOIC)
- 5nA typical input bias current
- Down to 2.4V single supply voltage range
- Rail-to-rail input and output
- Enable pin
- -40°C to +125°C operation
- Pb-free (RoHS compliant)
描述
The ISL28136 is a low-power single operational amplifier optimized for single supply operation from 2. 4V to 5. 5V, allowing operation from one lithium cell or two Ni-Cd batteries. This device features a gain-bandwidth product of 5MHz and is unity-gain stable with a -3dB bandwidth of 13MHz. This device features an Input Range Enhancement Circuit (IREC), which enables it to maintain CMRR performance for input voltages greater than the positive supply. The input signal is capable of swinging 0. 25V above the positive supply and to the negative supply with only a slight degradation of the CMRR performance. The output operation is rail-to-rail. The part typically draws less than 1mA supply current while meeting excellent DC accuracy, AC performance, noise and output drive specifications. Operation is guaranteed over -40°C to +125°C temperature range.
应用
- Low-end audio
- 4mA to 20mA current loops
- Medical devices
- Sensor amplifiers
- ADC buffers
- DAC output amplifiers
| Part Number | Status | Samples | Stock | RoHS | Package | Lead Count (#) | Carrier Type | Moisture Sensitivity Level (MSL) | Pitch (mm) | Pkg. Dimensions (mm) | Pb (Lead) Free | Pb Free Category | Temp. Range (°C) |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| ISL28136FBZ | Obsolete | N/A | Out of Stock | RoHS:EN | SOICN | 8# | Tube | 1.3mm | 4.9 x 3.9 x 0.00 | No | -40 to +125°C | ||
| ISL28136FBZ-T7 | Obsolete | N/A | Out of Stock | RoHS:EN | SOICN | 8# | Reel | 1.3mm | 4.9 x 3.9 x 0.00 | No | -40 to +125°C | ||
| ISL28136FHZ-T7 | Obsolete | N/A | In Stock | RoHS:EN | SOT23 | 6# | Reel | 2 | 1mm | 2.9 x 1.6 x 0.00 | Yes | Pb-Free 100% Matte Tin Plate w/Anneal-e3 | -40 to +125°C |
| ISL28136FHZ-T7A | Obsolete | N/A | In Stock | RoHS:EN | SOT23 | 6# | Reel | 2 | 1mm | 2.9 x 1.6 x 0.00 | Yes | Pb-Free 100% Matte Tin Plate w/Anneal-e3 | -40 to +125°C |
- 培训资料英语PDF 162 KB R13TB0003EU0100 Rev.1.00 2023年12月12日
- 应用说明英语PDF 381 KB R13AN0015EU0100 Rev.1.00 2022年5月16日AI 生成的摘要: Low-voltage precision operational amplifiers from Renesas feature ultra-low input offset voltages with on-chip auto-zeroing, ideal for precise sensor signal conditioning in compact applications. Key design considerations include minimizing thermoelectric (Seebeck) voltages caused by PCB junctions and temperature gradients, which can introduce offset errors amplified by high gain. Techniques such as using dummy resistors, maintaining uniform PCB temperature with ground planes, and employing guard rings reduce these errors. The ISL28134 supports precision high-side current sensing with adaptations for high-voltage systems using level shifting via Zener diodes. Output current can be increased by adding an NPN transistor as a current booster, ensuring linear operation within voltage limits. The document provides detailed circuit examples and design guidelines for optimizing performance and minimizing errors in low-voltage op-amp applications.
- 应用说明英语PDF 992 KB R13AN0012EU0101 Rev.1.01 2022年2月07日AI 生成的摘要: Current sensing techniques include low-side and high-side sensing using low-voltage precision op-amps combined with current sense resistors. Low-side sensing places the resistor between load and ground, offering simplicity and low cost but limited short-circuit detection. High-side sensing places the resistor between supply and load, enabling short-circuit detection but requiring higher complexity and level shifting. Current-sense resistors convert current to voltage linearly, with key parameters such as tolerance, temperature coefficient, and power rating affecting accuracy. Low-side sensing uses non-inverting amplifiers with tight offset voltage requirements, while high-side sensing employs output transistors to maintain voltage balance. Ultra-low offset amplifiers allow smaller sense resistors, reducing power loss and improving measurement range.
- 应用说明英语PDF 263 KB r13an0003eu0100-biasing-op-amps 2019年12月06日AI 生成的摘要: Proper biasing of operational amplifiers is essential to avoid malfunction in AC-coupled circuits. A missing DC bias path causes long stabilization times and potential failures. Adding input resistors to ground provides a DC path for bias currents, minimizing offset errors. For single-supply AC-coupled amplifiers, biasing uses a reference voltage, ideally from a high-PSRR voltage reference or buffered voltage divider, to maintain signal symmetry and reduce noise. Understanding frequency responses of input and feedback components is crucial for setting bandwidth and gain characteristics.
- 应用说明英语PDF 564 KB an1993 2018年5月22日AI 生成的摘要: Voltage feedback (VFB) amplifiers use a differential input pair, a high-impedance stage, and an output buffer to convert input voltage differences into output voltage. The VFB amplifier's gain decreases at a dominant pole frequency due to compensation capacitors. Current feedback (CFB) amplifiers include a class AB input amplifier, current mirror, high-impedance stage, and output buffer. CFB amplifiers provide faster switching and higher slew rates by drawing charge/discharge currents directly from supply rails, unlike VFB amplifiers which are limited by biasing current sources.
- 产品变更通告英语PDF 557 KB PCN13022 2013年2月28日
- 产品变更通告英语PDF 152 KB PCN12085 2012年11月07日
- 产品变更通告英语PDF 135 KB PCN12084 2012年10月15日
- 产品变更通告英语PDF 80 KB PCN11038 2011年4月05日
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- 应用说明英语PDF 381 KB R13AN0015EU0100 Rev.1.00 2022年5月16日AI 生成的摘要: Low-voltage precision operational amplifiers from Renesas feature ultra-low input offset voltages with on-chip auto-zeroing, ideal for precise sensor signal conditioning in compact applications. Key design considerations include minimizing thermoelectric (Seebeck) voltages caused by PCB junctions and temperature gradients, which can introduce offset errors amplified by high gain. Techniques such as using dummy resistors, maintaining uniform PCB temperature with ground planes, and employing guard rings reduce these errors. The ISL28134 supports precision high-side current sensing with adaptations for high-voltage systems using level shifting via Zener diodes. Output current can be increased by adding an NPN transistor as a current booster, ensuring linear operation within voltage limits. The document provides detailed circuit examples and design guidelines for optimizing performance and minimizing errors in low-voltage op-amp applications.
- 应用说明英语PDF 992 KB R13AN0012EU0101 Rev.1.01 2022年2月07日AI 生成的摘要: Current sensing techniques include low-side and high-side sensing using low-voltage precision op-amps combined with current sense resistors. Low-side sensing places the resistor between load and ground, offering simplicity and low cost but limited short-circuit detection. High-side sensing places the resistor between supply and load, enabling short-circuit detection but requiring higher complexity and level shifting. Current-sense resistors convert current to voltage linearly, with key parameters such as tolerance, temperature coefficient, and power rating affecting accuracy. Low-side sensing uses non-inverting amplifiers with tight offset voltage requirements, while high-side sensing employs output transistors to maintain voltage balance. Ultra-low offset amplifiers allow smaller sense resistors, reducing power loss and improving measurement range.
- 应用说明英语PDF 263 KB r13an0003eu0100-biasing-op-amps 2019年12月06日AI 生成的摘要: Proper biasing of operational amplifiers is essential to avoid malfunction in AC-coupled circuits. A missing DC bias path causes long stabilization times and potential failures. Adding input resistors to ground provides a DC path for bias currents, minimizing offset errors. For single-supply AC-coupled amplifiers, biasing uses a reference voltage, ideally from a high-PSRR voltage reference or buffered voltage divider, to maintain signal symmetry and reduce noise. Understanding frequency responses of input and feedback components is crucial for setting bandwidth and gain characteristics.
- 应用说明英语PDF 564 KB an1993 2018年5月22日AI 生成的摘要: Voltage feedback (VFB) amplifiers use a differential input pair, a high-impedance stage, and an output buffer to convert input voltage differences into output voltage. The VFB amplifier's gain decreases at a dominant pole frequency due to compensation capacitors. Current feedback (CFB) amplifiers include a class AB input amplifier, current mirror, high-impedance stage, and output buffer. CFB amplifiers provide faster switching and higher slew rates by drawing charge/discharge currents directly from supply rails, unlike VFB amplifiers which are limited by biasing current sources.
- 应用说明英语PDF 357 KB an1694 2004年1月19日AI 生成的摘要: The document outlines the four fundamental internal blocks of an operational amplifier and presents a simple 2:1 stage circuit diagram. It includes important legal notices from Renesas Electronics regarding the use, liability, and intellectual property rights of their semiconductor products. The document clarifies product quality grades, intended applications, and restrictions on use in life-critical or hazardous systems. It emphasizes compliance with applicable laws and safety responsibilities when using Renesas products. Contact information for Renesas sales offices worldwide is also provided.查看更多 (11)
应用说明和白皮书 (11)
- 产品变更通告英语PDF 557 KB PCN13022 2013年2月28日
- 产品变更通告英语PDF 152 KB PCN12085 2012年11月07日查看更多 (8)
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- 培训资料英语PDF 162 KB R13TB0003EU0100 Rev.1.00 2023年12月12日
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Renesas Boards & Kits
5MHz, Single Precision Rail-to-Rail Input-Output Op Amp Evaluation Board
The ISL28136EVAL1Z evaluation board is a design platform containing all the circuitry needed to characterize critical performance parameters of the ISL28136 operational amplifier (op amp), using a variety of user-defined test circuits.
The ISL28136 is a low-power single operational amplifier... 阅读详情
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