ZHCS230B August 2014 – February 2024 THS4541
PRODUCTION DATA
参数 | 测试条件 | 最小值 | 典型值 | 最大值 | 单位 | 测试 等级(1) | |||
---|---|---|---|---|---|---|---|---|---|
交流性能 | |||||||||
小信号带宽 | Vout = 100mVPP,G = 1 | 620 | MHz | C | |||||
Vout = 100mVPP,G = 2(请参阅图 7-1) | 500 | C | |||||||
Vout = 100mVPP,G = 5 | 210 | C | |||||||
Vout = 100mVPP,G = 10 | 125 | C | |||||||
增益带宽积 | Vout = 100mVPP,G = 20 | 850 | MHz | C | |||||
大信号带宽 | Vout = 2 VPP,G = 2(请参阅图 7-1) | 340 | MHz | C | |||||
0.1dB 平坦度带宽 | Vout = 2 VPP,G = 2(请参阅图 7-1) | 100 | MHz | C | |||||
压摆率(2) | Vout = 2VPP,FPBW(请参阅图 7-1) | 1500 | V/µs | C | |||||
上升/下降时间 | Vout = 2V 阶跃,G = 2,输入 ≤ 0.3ns tr (请参阅图 7-3) | 1.4 | ns | C | |||||
稳定时间 | 达到 1%,Vout = 2V 阶跃,tr = 2ns,G = 2(请参阅图 7-3) | 4 | ns | C | |||||
达到 0.1%,Vout = 2V 阶跃,tr = 2ns,G = 2(请参阅图 7-3) | 8 | C | |||||||
过冲和下冲 | Vout = 2V 阶跃,G = 2,输入 ≤ 0.3ns tr (请参阅图 7-3) | 10% | C | ||||||
100kHz 谐波失真 | Vout = 2VPP,G = 2,HD2(请参阅图 7-1) | -140 | dBc | C | |||||
Vout = 2VPP,G = 2,HD3(请参阅图 7-1) | -140 | C | |||||||
10MHz 谐波失真 | Vout = 2VPP,G = 2,HD2(请参阅图 7-1) | -95 | dBc | C | |||||
Vout = 2VPP,G = 2,HD3(请参阅图 7-1) | -90 | C | |||||||
二阶互调失真 | f = 10MHz,100kHz 频率间隔, Vout 包络 = 2VPP(1VPP/单音) (请参阅图 7-1) | -90 | dBc | C | |||||
三阶互调失真 | f = 10MHz,100kHz 频率间隔, Vout 包络 = 2VPP(1VPP/单音) (请参阅图 7-1) | -85 | dBc | C | |||||
输入电压噪声 | f > 100kHz | 2.2 | nV/√Hz | C | |||||
输入电流噪声 | f > 1MHz | 1.9 | pA/√ Hz | C | |||||
过驱动恢复时间 | 2 倍输出过驱,任一极性 | 20 | ns | C | |||||
闭环输出阻抗 | f = 10MHz(差分) | 0.1 | Ω | C | |||||
直流性能 | |||||||||
AOL | 开环电压增益 | 100 | 119 | dB | A | ||||
以输入为基准的失调电压 | TA = 25°C | -450 | ±100 | 450 | µV | A | |||
TA = 0°C 至 70°C | -600 | ±100 | 600 | B | |||||
TA = -40°C 至 +85°C | -700 | ±100 | 700 | B | |||||
TA = -40°C 至 +125°C | -850 | ±100 | 850 | B | |||||
输入失调电压漂移(3) | TA = -40°C 至 +125°C | -2.4 | ±0.5 | 2.4 | µV/°C | B | |||
输入偏置电流 (流出节点的电流为正电流) | TA = 25°C | 10 | 13 | µA | A | ||||
TA = 0°C 至 70°C | 11 | 13.5 | B | ||||||
TA = -40°C 至 +85°C | 12 | 14 | B | ||||||
TA = -40°C 至 +125°C | 12 | 14.5 | B | ||||||
输入偏置电流漂移(3) | TA = -40°C 至 +125°C | 6 | 15 | nA/°C | B | ||||
输入失调电流 | TA = 25°C | -500 | ±150 | 500 | nA | A | |||
TA = 0°C 至 70°C | -550 | ±150 | 550 | B | |||||
TA = -40°C 至 +85°C | -580 | ±150 | 580 | B | |||||
TA = -40°C 至 +125°C | -620 | ±150 | 620 | B | |||||
输入失调电流漂移(3) | TA = -40°C 至 +125°C | -1.3 | ±0.3 | 1.3 | nA/°C | B | |||
输入 | |||||||||
共模输入低电平 | 1/2 Vs 的 CMRR 降幅 < 3dB | TA = 25°C | (Vs–) – 0.2 | (Vs–) – 0.1 | V | A | |||
TA = -40°C 至 +125°C | (Vs–) – 0.1 | Vs– | B | ||||||
共模输入高电平 | 1/2 Vs 的 CMRR 降幅 < 3dB | TA = 25°C | (Vs+) – 1.3 | (Vs+) –1.2 | V | A | |||
TA = -40°C 至 +125°C | (Vs+) – 1.3 | B | |||||||
共模抑制比 | 输入引脚电压为 ((Vs+) – Vs–)/2 | 85 | 100 | dB | A | ||||
输入阻抗差模 | 输入引脚电压为 ((Vs+) – Vs–)/2 | 110 || 0.85 | kΩ || pF | C | |||||
输出 | |||||||||
输出电压低电平 | TA = 25°C | (Vs–) + 0.2 | (Vs–) + 0.25 | V | A | ||||
TA = -40°C 至 +125°C | (Vs–) + 0.2 | (Vs–) + 0.25 | B | ||||||
输出电压高电平 | TA = 25°C | (Vs+) – 0.25 | (Vs+) – 0.2 | V | A | ||||
TA = -40°C 至 +125°C | (Vs+) – 0.25 | (Vs+) – 0.2 | B | ||||||
输出电流驱动 | TA = 25°C | ±75 | ±100 | mA | A | ||||
TA = -40°C 至 +125°C | ±75 | B | |||||||
电源 | |||||||||
额定工作电压 | 2.7 | 5 | 5.4 | V | B | ||||
静态工作电流 | TA = 25°C,Vs+ = 5V | 9.7 | 10.1 | 10.5 | mA | A | |||
TA = -40°C 至 +125°C | 9.4 | 10.1 | 11 | B | |||||
±PSRR | 电源抑制比 | 任一电源引脚至差分 Vout | 85 | 100 | dB | A | |||
断电 | |||||||||
启用电压阈值 | (Vs–) + 1.7 | V | A | ||||||
禁用电压阈值 | (Vs–) + 0.7 | V | A | ||||||
禁用引脚偏置电流 | PD = Vs– → Vs+ | 20 | 50 | nA | B | ||||
关断静态电流 | PD = (Vs–) + 0.7V | 6 | 30 | µA | A | ||||
PD = Vs– | 2 | 8 | A | ||||||
开通延时时间 | PD = 低电平至 Vout = 最终值的 90% 的时间 | 100 | ns | C | |||||
关断延时时间 | PD = 低电平至 Vout = 最终值的 10% 的时间 | 60 | ns | C | |||||
输出共模电压控制(4) | |||||||||
小信号带宽 | Vocm = 100mVPP | 150 | MHz | C | |||||
压摆率(2) | Vocm = 2V 阶跃 | 400 | V/µs | C | |||||
增益 | 0.975 | 0.982 | 0.995 | V/V | A | ||||
输入偏置电流 | 流出节点的电流被视为正电流 | -0.7 | 0.1 | 0.7 | µA | A | |||
输入阻抗 | Vocm 输入被驱动至 ((Vs+) – Vs–)/2 | 47 || 1.2 | kΩ || pF | C | |||||
相对于 ((Vs+) – Vs–)/2 的 默认电压偏置 | Vocm 引脚开路 | -40 | ±8 | 40 | mV | A | |||
CM Vos | 共模失调电压 | Vocm 输入被驱动至 ((Vs+) – Vs–)/2 | TA = 25°C | -5 | ±2 | 5 | mV | A | |
TA = 0°C 至 70°C | -6 | ±2 | 5.8 | B | |||||
TA = -40°C 至 +85°C | -6.2 | ±2 | 6.2 | B | |||||
TA = -40°C 至 +125°C | -7 | ±2 | 7.08 | B | |||||
共模失调电压温漂(3) | Vocm 输入被驱动至 ((Vs+) – Vs–)/2 | -20 | ±4 | +20 | µV/°C | B | |||
负电源的共模环路电源余量 | 相对于 1/2 Vs CM Vos 的变化 < ±12mV | TA = 25°C | 0.88 | V | A | ||||
TA = 0°C 至 70°C | 0.91 | B | |||||||
TA = -40°C 至 +85°C | 0.94 | B | |||||||
TA = -40°C 至 +125°C | 0.94 | B | |||||||
正电源的共模环路电源余量 | 相对于 1/2 Vs CM Vos 的变化 < ±12mV | TA = 25°C | 1.1 | V | A | ||||
TA = 0°C 至 70°C | 1.15 | B | |||||||
TA = -40°C 至 +85°C | 1.2 | B | |||||||
TA = -40°C 至 +125°C | 1.2 | B |