Datasheet LTC1380, LTC1393 (Analog Devices) - 4
| 制造商 | Analog Devices |
| 描述 | Single-Ended 8-Channel/ Differential 4-Channel Analog Multiplexer with SMBus Interface |
| 页数 / 页 | 12 / 4 — TYPICAL PERFOR A CE CHARACTERISTICS (Note 5). On Resistance vs … |
| 修订版 | LTC1380/LTC1393: Single-Ended 8-Channel/ Differential 4-Channel Analog Multiplexer with SMBus Interface Data Sheet |
| 文件格式/大小 | PDF / 246 Kb |
| 文件语言 | 英语 |
TYPICAL PERFOR A CE CHARACTERISTICS (Note 5). On Resistance vs Temperature. Off-Channel Input Leakage vs V
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LTC1380/LTC1393
W U TYPICAL PERFOR A CE CHARACTERISTICS (Note 5) On Resistance vs Temperature Off-Channel Input Leakage vs V Off-Channel Output Leakage vs V S D
250 0.0020 0.010 ID = 1mA T T 225 0.0018 A = 25°C 0.008 A = 25°C 200 0.0016 V 0.006 CC = 5V ) VCC = 2.7V V Ω 175 EE = – 5V V 0.0014 0.004 EE = 0V VCC = 5V 150 VS = 1.35V 0.0012 0.002 VEE = –5V VCC = 2.7V 125 VCC = 5V 0.0010 V 0 EE = 0V VCC = 5V V 100 EE = 0V VCC = 5V 0.0008 V – 0.002 VEE = 0V V LEAKAGE (nA) CC = 5V LEAKAGE (nA) S = 2.5V VEE = –5V I S VEE = 0V I D ON RESISTANCE ( 75 V 0.0006 – 0.004 S = 0V VCC = 2.7V V 50 0.0004 – 0.006 EE = 0V 25 0.0002 – 0.008 0 0 – 0.010 – 50 –25 0 25 50 75 100 125 – 4.5– 3.5 – 2.5 –1.5 – 0.5 0.5 1.5 2.5 3.5 4.5 – 4.5– 3.5 – 2.5 –1.5 – 0.5 0.5 1.5 2.5 3.5 4.5 TEMPERATURE (°C) VS (V) VD (V) 1380/93 G01 1380/93 G02 1380/93 G03
Off-Channel Input Leakage On-Channel Input Leakage vs VS On-Channel Output Leakage vs V vs Temperature D
0.010 0.010 10 T T 0.008 A = 25°C 0.008 A = 25°C VCC = 2.7V VEE = 0V 0.006 0.006 1 VS = 1.35V V 0.004 0.004 CC = 5V VEE = –5V 0.002 VCC = 5V 0.002 0.1 VCC = 5V VEE = –5V V VEE = 0V 0 CC = 2.7V 0 V V V EE = 0V CC = 2.7V S = 2.5V VEE = 0V LEAKAGE (nA) – 0.002 LEAKAGE (nA) – 0.002 LEAKAGE (nA) 0.01 I S I D I S VCC = 5V – 0.004 – 0.004 VEE = –5V – 0.006 – 0.006 0.001 VS = 0V V V – 0.008 CC = 5V – 0.008 CC = 5V VEE = 0V VEE = 0V – 0.010 – 0.010 0.0001 – 4.5– 3.5 – 2.5 –1.5 – 0.5 0.5 1.5 2.5 3.5 4.5 – 4.5– 3.5 – 2.5 –1.5 – 0.5 0.5 1.5 2.5 3.5 4.5 –50 –25 0 25 50 75 100 125 VS (V) V TEMPERATURE ( D (V) °C) 1380/93 G04 1380/93 G05 1380/93 G06
Off-Channel Output Leakage On-Channel Input Leakage On-Channel Output Leakage vs Temperature vs Temperature vs Temperature
1000 1000 1000 VCC = 5V V V CC = 5V CC = 2.7V 100 VEE = – 5V 100 VEE = 0V 100 VEE = 0V VD = 0V V V S = 2.5V D = 1.35V 10 VCC = 2.7V 10 10 VEE = 0V VCC = 5V 1 VD = 1.35V V V V 1 EE = – 5V 1 CC = 5V CC = 5V V VEE = – 5V V S = 0V EE = 0V VD = 0V 0.1 VD = 2.5V 0.1 0.1 VCC = 5V LEAKAGE (nA) LEAKAGE (nA) LEAKAGE (nA) V I D I S EE = 0V VCC = 2.7V I D 0.01 0.01 V V 0.01 D = 2.5V EE = 0V VS = 1.35V 0.001 0.001 0.001 0.0001 0.0001 0.0001 – 50 – 25 0 25 50 75 100 125 – 50 – 25 0 25 50 75 100 125 – 50 – 25 0 25 50 75 100 125 TEMPERATURE (°C) TEMPERATURE (°C) TEMPERATURE (°C) 1380/93 G07 1380/93 G08 1380/93 G09 4
W U TYPICAL PERFOR A CE CHARACTERISTICS (Note 5) On Resistance vs Temperature Off-Channel Input Leakage vs V Off-Channel Output Leakage vs V S D
250 0.0020 0.010 ID = 1mA T T 225 0.0018 A = 25°C 0.008 A = 25°C 200 0.0016 V 0.006 CC = 5V ) VCC = 2.7V V Ω 175 EE = – 5V V 0.0014 0.004 EE = 0V VCC = 5V 150 VS = 1.35V 0.0012 0.002 VEE = –5V VCC = 2.7V 125 VCC = 5V 0.0010 V 0 EE = 0V VCC = 5V V 100 EE = 0V VCC = 5V 0.0008 V – 0.002 VEE = 0V V LEAKAGE (nA) CC = 5V LEAKAGE (nA) S = 2.5V VEE = –5V I S VEE = 0V I D ON RESISTANCE ( 75 V 0.0006 – 0.004 S = 0V VCC = 2.7V V 50 0.0004 – 0.006 EE = 0V 25 0.0002 – 0.008 0 0 – 0.010 – 50 –25 0 25 50 75 100 125 – 4.5– 3.5 – 2.5 –1.5 – 0.5 0.5 1.5 2.5 3.5 4.5 – 4.5– 3.5 – 2.5 –1.5 – 0.5 0.5 1.5 2.5 3.5 4.5 TEMPERATURE (°C) VS (V) VD (V) 1380/93 G01 1380/93 G02 1380/93 G03
Off-Channel Input Leakage On-Channel Input Leakage vs VS On-Channel Output Leakage vs V vs Temperature D
0.010 0.010 10 T T 0.008 A = 25°C 0.008 A = 25°C VCC = 2.7V VEE = 0V 0.006 0.006 1 VS = 1.35V V 0.004 0.004 CC = 5V VEE = –5V 0.002 VCC = 5V 0.002 0.1 VCC = 5V VEE = –5V V VEE = 0V 0 CC = 2.7V 0 V V V EE = 0V CC = 2.7V S = 2.5V VEE = 0V LEAKAGE (nA) – 0.002 LEAKAGE (nA) – 0.002 LEAKAGE (nA) 0.01 I S I D I S VCC = 5V – 0.004 – 0.004 VEE = –5V – 0.006 – 0.006 0.001 VS = 0V V V – 0.008 CC = 5V – 0.008 CC = 5V VEE = 0V VEE = 0V – 0.010 – 0.010 0.0001 – 4.5– 3.5 – 2.5 –1.5 – 0.5 0.5 1.5 2.5 3.5 4.5 – 4.5– 3.5 – 2.5 –1.5 – 0.5 0.5 1.5 2.5 3.5 4.5 –50 –25 0 25 50 75 100 125 VS (V) V TEMPERATURE ( D (V) °C) 1380/93 G04 1380/93 G05 1380/93 G06
Off-Channel Output Leakage On-Channel Input Leakage On-Channel Output Leakage vs Temperature vs Temperature vs Temperature
1000 1000 1000 VCC = 5V V V CC = 5V CC = 2.7V 100 VEE = – 5V 100 VEE = 0V 100 VEE = 0V VD = 0V V V S = 2.5V D = 1.35V 10 VCC = 2.7V 10 10 VEE = 0V VCC = 5V 1 VD = 1.35V V V V 1 EE = – 5V 1 CC = 5V CC = 5V V VEE = – 5V V S = 0V EE = 0V VD = 0V 0.1 VD = 2.5V 0.1 0.1 VCC = 5V LEAKAGE (nA) LEAKAGE (nA) LEAKAGE (nA) V I D I S EE = 0V VCC = 2.7V I D 0.01 0.01 V V 0.01 D = 2.5V EE = 0V VS = 1.35V 0.001 0.001 0.001 0.0001 0.0001 0.0001 – 50 – 25 0 25 50 75 100 125 – 50 – 25 0 25 50 75 100 125 – 50 – 25 0 25 50 75 100 125 TEMPERATURE (°C) TEMPERATURE (°C) TEMPERATURE (°C) 1380/93 G07 1380/93 G08 1380/93 G09 4