ADPD2211是一款为生物医学应用优化的光学传感器。通过将一个在零偏压光导模式下工作的超低电容深结硅光电
二极管与一个低噪声电流放大器打包,实现了非常低的功耗和接近理论的信噪比(SNR)。
ADPD2211提供典型的400 kHz带宽性能,非常适合与脉冲激励一起使用。ADPD2211在工作期间耗电极少,并集成了一个断电引脚,使电源循环能够优化便携式应用的电池寿命。ADPD2211提供射出噪声限制性能,使其成为在低光条件下以最高保真度测量信号的绝佳选择。.这种低功率、非常高的信噪比和电磁干扰(EMI)免疫力的组合,实现了传统光电二极管(PD)和跨阻抗放大器(TIA)系统无法实现的低功率系统解决方案。
特征
- 超高探测率光电探测器
- 90 fA/√Hz(典型值)超低本底噪声
- 信噪比 (SNR) 接近散粒噪声极限
- 137 µA(典型值)的电源电流处于活动状态(EE = 0 微瓦/平方厘米)
- 1 µA(典型值)的待机电源电流
- 高速、深结光电二极管
- 标称线性输出电流:240 µA(典型值)
- 灵活的输出配置
- 出色的脉冲响应
- 高环境光抑制
- 节省空间的 3 mm * 3 mm LFCSP 封装
应用程序
- 心率、脉搏血氧监测(光体积描记法)
- 电池供电的医疗传感器
- 化学分析
功能框图
图1
规格
| Parameter | Symbol | Test Conditions/Comments | Min | Typ | Max | Unit |
| GAIN | βTLA | | 24 | |
| Gain (Current Amplifier) |
| DYNAMIC PERFORMANCE | | | | | | |
| Frequency Response Peaking | | | | <6 | | dB |
| Rise Time | tR | 10% to 90% full scale (FS) (IOUT = 24 µA) | | 1.24 | | µs |
| Fall Time | tF | 90% to 10% FS (IOUT =24 µA) | | 1.27 | | µs |
| Bandwidth | BW | IPD = 10 nA, IMOD = 1 nA | | 400 | | kHz |
| OPTICAL PERFORMANCE | | | | | | |
| Diode Active Area | | 1.8 | | mm2 |
| Saturation Irradiance | | 2200 | | µW/cm2 |
| NOISE PERFORMANCE | NEP | | | | | |
| Current Noise, Output Referred1 | EE = 0 µW/cm2 | | 1920 | | fA/√Hz |
| IPD = 10 nA to 300 nA | | 1.4 × NSHOT | fA/√Hz |
| IPD > 300 nA | | 1.15 × NSHOT | fA/√Hz |
| Current Noise Floor, Input Referred | EE = 0 µW/cm2, at 1 kHz | | 90 | 150 | fA/√Hz |
| Noise Equivalent Power | At 1 kHz | | 100 | | fW/√Hz |
| EE Required for SNR = 10000:1 | At 1 kHz | | 200 | | nW/cm2 |
| POWER AND SUPPLY | | | | | | |
| Supply Voltage | VCC | | 1.8 | 3.3 | 5.0 | V |
| Power Supply Rejection Ratio | PSRR | VCC = 1.8 V to 5.0 V, EE = 2200 µW/cm2 | | 120 | | nA/V |
| Current | | | | | | |
| Standby | ISTANDBY | PWDN > VIH | | 1 | | µA |
| Supply at EE = 0 µW/cm2 | IFLOOR | | | 137 | | µA |
| Supply2 | ISUPPLY | IOUT = 10 µA | | 166 | | µA |
| | IOUT = 240 µA | | 950 | | µA |
| OUTPUT CHARACTERISTICS | | | | | | |
| Amplifier Static Bias Current | | | | | | |
| Input Referred | | EE = 0 µW/cm2 | | 10 | | nA |
| Output Referred | | EE = 0 µW/cm2 | | 240 | | nA |
| Maximum Output Voltage | VOUT_MAX | | | VCC − 0.75 | V |
| Nominal Linear Output Current | IOUT_FS | | | 240 | | µA |
| Linearity into TIA | | VBIAS = 1.3 V, RFEEDBACK = 25 kΩ | | 60 | | dB |
| Linearity into Resistive Load | | IOUT < 100 µA , RLOAD = 5 kΩ | | 60 | | dB |
| Peak Output Current3 | | | | 300 | | µA |
| Output Capacitance | COUT | From OUT to GND | | 5 | | pF |
| Output Resistance | ROUT | From OUT to GND | | 1000 | | MΩ |
| POWER-DOWN LOGIC | | | | | |
| Input Voltage | | | | | |
| High Level | VIH | | VCC − 0.2 | | V |
| Low Level | VIL | | | | 0.2 | V |
| Leakage Current | | | | | | |
| High | IIH | PWDN = 3.3 V | | 0.2 | | nA |
| Low | IIL | PWDN = 0 V | | -8.5 | | µA |
| OPERATING AMBIENT TEMPERATURE RANGE | | | -40 | | +85 | °C |
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发表于 2023-1-25 09:00
