ZHCSP70 January 2024 TMUX7212M
PRODUCTION DATA
参数 | 测试条件 | TA | 最小值 | 典型值 | 最大值 | 单位 | |
---|---|---|---|---|---|---|---|
模拟开关 | |||||||
RON | 导通电阻 | VS = –10V 至 +10V ID = –10mA 请参阅导通电阻 |
25°C | 2 | 2.7 | Ω | |
–40°C 至 +85°C | 3.4 | Ω | |||||
–55°C 至 +125°C | 4 | Ω | |||||
ΔRON | 通道间的导通电阻不匹配 | VS = –10V 至 +10V ID = –10mA 请参阅导通电阻 |
25°C | 0.1 | 0.18 | Ω | |
–40°C 至 +85°C | 0.19 | Ω | |||||
–55°C 至 +125°C | 0.21 | Ω | |||||
RON FLAT | 导通电阻平坦度 | VS = –10V 至 +10V IS = –10mA 请参阅导通电阻 |
25°C | 0.2 | 0.46 | Ω | |
–40°C 至 +85°C | 0.65 | Ω | |||||
–55°C 至 +125°C | 0.7 | Ω | |||||
RON DRIFT | 导通电阻漂移 | VS = 0V,IS = –10mA 请参阅导通电阻 |
–55°C 至 +125°C | 0.008 | Ω/°C | ||
IS(OFF) | 源极关断漏电流(1) | VDD = 16.5V,VSS = –16.5V 开关状态为关断 VS = +10V/–10V VD = –10V/+10V 请参阅关断漏电流 |
25°C | -0.25 | 0.05 | 0.25 | nA |
–40°C 至 +85°C | -3 | 3 | nA | ||||
–55°C 至 +125°C | -20 | 20 | nA | ||||
ID(OFF) | 漏极关断漏电流(1) | VDD = 16.5V,VSS = –16.5V 开关状态为关断 VS = +10V/–10V VD = –10V/+10V 请参阅关断漏电流 |
25°C | -0.25 | 0.05 | 0.25 | nA |
–40°C 至 +85°C | -3 | 3 | nA | ||||
–55°C 至 +125°C | -20 | 20 | nA | ||||
IS(ON) ID(ON) |
通道导通漏电流(2) | VDD = 16.5V,VSS = –16.5V 开关状态为导通 VS = VD = ±10V 请参阅导通漏电流 |
25°C | –0.4 | 0.1 | 0.4 | nA |
–40°C 至 +85°C | -1 | 1 | nA | ||||
–55°C 至 +125°C | -3 | 3 | nA | ||||
逻辑输入(SEL/EN 引脚) | |||||||
VIH | 逻辑电压高位 | –55°C 至 +125°C | 1.3 | 44 | V | ||
VIL | 逻辑电压低位 | –55°C 至 +125°C | 0 | 0.8 | V | ||
IIH | 输入漏电流 | –55°C 至 +125°C | 0.4 | 1.2 | µA | ||
IIL | 输入漏电流 | –55°C 至 +125°C | -0.1 | –0.005 | µA | ||
CIN | 逻辑输入电容 | –55°C 至 +125°C | 3.5 | pF | |||
电源 | |||||||
IDD | VDD 电源电流 | VDD = 16.5V,VSS = -16.5V 逻辑输入 = 0V、5V 或 VDD |
25°C | 35 | 56 | µA | |
–40°C 至 +85°C | 65 | µA | |||||
–55°C 至 +125°C | 80 | µA | |||||
ISS | VSS 电源电流 | VDD = 16.5V,VSS = -16.5V 逻辑输入 = 0V、5V 或 VDD |
25°C | 5 | 20 | µA | |
–40°C 至 +85°C | 24 | µA | |||||
–55°C 至 +125°C | 35 | µA |