ZHCSI64E February 2019 – August 2021 TLV9101 , TLV9102 , TLV9104
PRODUCTION DATA
| 参数 | 测试条件 | 最小值 | 典型值 | 最大值 | 单位 | ||
|---|---|---|---|---|---|---|---|
| 失调电压 | |||||||
| VOS | 输入失调电压 | VCM = V– | ±0.3 | ±1.5 | mV | ||
| TA = –40°C 至 125°C | ±1.75 | ||||||
| dVOS/dT | 输入失调电压漂移 | TA = –40°C 至 125°C | ±0.6 | µV/℃ | |||
| PSRR | 输入失调电压与电源间的关系 | VCM = V– | TA = –40°C 至 125°C | ±0.1 | ±0.7 | µV/V | |
| 通道隔离 | f = 0Hz | 5 | µV/V | ||||
| 输入偏置电流 | |||||||
| IB | 输入偏置电流 | ±10 | pA | ||||
| IOS | 输入失调电流 | ±5 | pA | ||||
| 噪声 | |||||||
| EN | 输入电压噪声 | f = 0.1Hz 至 10Hz | 6 | µVPP | |||
| 1 | µVRMS | ||||||
| eN | 输入电压噪声密度 | f = 1kHz | 30 | nV/√Hz | |||
| f = 10kHz | 28 | ||||||
| iN | 输入电流噪声 | f = 1kHz | 2 | fA/√Hz | |||
| 输入电压范围 | |||||||
| VCM | 共模电压范围 | (V-)-0.2 | (V+)+0.2 | V | |||
| CMRR | 共模抑制比 | VS = 16V,(V–) – 0.1V < VCM < (V+) – 2V(主输入对) | TA = –40°C 至 125°C | 90 | 110 | dB | |
| VS = 4V,(V–) – 0.1V < VCM < (V+) – 2V(主输入对) | 75 | 95 | |||||
| VS = 2.7 – 16V,(V+) – 1V < VCM < (V+) + 0.1V(辅助输入对) | 80 | ||||||
| (V+) – 2V < VCM < (V+) – 1V | 请参阅典型特性部分中的失调电压(转换区域) | ||||||
| 输入电容 | |||||||
| ZID | 差分 | 100 || 3 | MΩ || pF | ||||
| ZICM | 共模 | 6 || 1 | TΩ || pF | ||||
| 开环增益 | |||||||
| AOL | 开环电压增益 | VS = 16V,VCM = V– (V–) + 0.1V < VO < (V+) – 0.1V |
TA = –40°C 至 125°C | 115 | 135 | dB | |
| VS = 4V,VCM = V– (V–) + 0.1V < VO < (V+) – 0.1V |
104 | 125 | dB | ||||
| 频率响应 | |||||||
| GBW | 增益带宽积 | 1.1 | MHz | ||||
| SR | 压摆率 | VS = 16V,G = +1,CL = 20pF | 4.5 | V/µs | |||
| tS | 趋稳时间 | 达 0.1%,VS = 16V,VSTEP = 10V,G = +1,CL = 20pF | 4 | µs | |||
| 达 0.1%,VS = 16V,VSTEP = 2V,G = +1,CL = 20pF | 2 | ||||||
| 达 0.01%,VS = 16V,VSTEP = 10V,G = +1,CL = 20pF | 5 | ||||||
| 达 0.01%,VS = 16V,VSTEP = 2V,G = +1,CL = 20pF | 3 | ||||||
| 相位裕度 | G = +1,RL = 10kΩ,CL = 20pF | 60 | ° | ||||
| 过载恢复时间 | VIN × 增益 > VS | 600 | ns | ||||
| THD+N | 总谐波失真 + 噪声 | VS = 16V,VO = 1 VRMS,G = -1,f = 1kHz | 0.0028% | ||||
| 输出 | |||||||
| 相对于电源轨的电压输出摆幅 | 正负电源轨裕度 | VS = 16V,RL = 空载 | 3 | mV | |||
| VS = 16V,RL = 10kΩ | 45 | 60 | |||||
| VS = 16V,RL = 2kΩ | 200 | 300 | |||||
| VS = 2.7V,RL = 空载 | 1 | ||||||
| VS = 2.7V,RL = 10kΩ | 5 | 20 | |||||
| VS = 2.7V,RL = 2kΩ | 25 | 50 | |||||
| ISC | 短路电流 | ±80 | mA | ||||
| CLOAD | 容性负载驱动 | 请参阅典型特性部分中的小信号过冲与容性负载间的关系 | |||||
| ZO | 开环输出阻抗 | f=1MHz,IO = 0A | 600 | Ω | |||
| 电源 | |||||||
| IQ | 每个放大器的静态电流 | IO = 0A | 115 | 150 | µA | ||
| TA = –40°C 至 125°C | 160 | ||||||
| 关断 | |||||||
| IQSD | 每个放大器的静态电流 | VS = 2.7V 至 16V,所有放大器均为禁用状态,SHDN = V+ | 20 | 30 | µA | ||
| ZSHDN | 关断时的输出阻抗 | VS = 2.7V 至 16V,放大器为禁用状态,SHDN = V+ | 10 || 12 | GΩ || pF | |||
| VIH | 逻辑高电平阈值电压(放大器被禁用) | 对于有效输入高电平,SHDN 引脚电压应大于最大阈值,但小于或等于 V+ | (V–) + 0.8 | (V–) + 1.1 | V | ||
| VIL | 逻辑低电平阈值电压(放大器被启用) | 对于有效输入低电平,SHDN 引脚电压应该小于最小阈值,但大于或等于 V– | (V–) + 0.2 | (V–) + 0.8 | V | ||
| tON | 放大器启用时间(1) | G = +1,VCM = V–,VO = 0.1 × VS/2 | 11 | µs | |||
| tOFF | 放大器禁用时间(1) | VCM = V–,VO = VS/2 | 2.5 | µs | |||
| SHDN 引脚输入偏置电流(每个引脚) | VS = 2.7V 至 16V,(V–) + 20V ≥ SHDN ≥ (V–) + 0.9V | 500 | nA | ||||
| VS = 2.7V 至 16V,(V–) ≤ SHDN ≤ (V–) + 0.7V | 150 | ||||||