JAJSUX4 June 2024 TMUX1308A , TMUX1309A
PRODUCTION DATA
デバイスごとのパッケージ図は、PDF版データシートをご参照ください。
PIN | TYPE(1) | DESCRIPTION(2) | |
---|---|---|---|
NAME | NO. | ||
S4 | 1 | I/O | Source pin 4. Signal path can be an input or output. |
S6 | 2 | I/O | Source pin 6. Signal path can be an input or output. |
D | 3 | I/O | Drain pin (common). Signal path can be an input or output. |
S7 | 4 | I/O | Source pin 7. Signal path can be an input or output. |
S5 | 5 | I/O | Source pin 5. Signal path can be an input or output. |
EN | 6 | I | Active low logic input. When this pin is high, all switches are turned off. When this pin is low, the A[2:0] address inputs determine which switch is turned on as listed in Section 8.5. |
N.C. | 7 | Not Connected | Not internally connected. |
GND | 8 | P | Ground (0V) reference |
A2 | 9 | I | Address line 2. Controls the switch configuration as listed in Section 8.5. |
A1 | 10 | I | Address line 1. Controls the switch configuration as listed in Section 8.5. |
A0 | 11 | I | Address line 0. Controls the switch configuration as listed in Section 8.5. |
S3 | 12 | I/O | Source pin 3. Signal path can be an input or output. |
S0 | 13 | I/O | Source pin 0. Signal path can be an input or output. |
S1 | 14 | I/O | Source pin 1. Signal path can be an input or output. |
S2 | 15 | I/O | Source pin 2. Signal path can be an input or output. |
VDD | 16 | P | Positive power supply. This pin is the most positive power-supply potential. For reliable operation, connect a decoupling capacitor ranging from 0.1µF to 10µF between VDD and GND. |
Thermal pad | — | Exposed thermal pad with conductive die attached. No requirement to solder this pad. If connected, then it should be left floating or tied to GND. |
PIN | TYPE(1) | DESCRIPTION(2) | |
---|---|---|---|
NAME | NO. | ||
S0B | 1 | I/O | Source pin 0 of mux B. Can be an input or output. |
S2B | 2 | I/O | Source pin 2 of mux B. Can be an input or output. |
DB | 3 | I/O | Drain pin (Common) of mux B. Can be an input or output. |
S3B | 4 | I/O | Source pin 3 of mux B. Can be an input or output. |
S1B | 5 | I/O | Source pin 1 of mux B. Can be an input or output. |
EN | 6 | I | Active low logic input. When this pin is high, all switches are turned off. When this pin is low, the A[1:0] address inputs determine which switch is turned on. |
N.C. | 7 | Not Connected | Not internally connected. |
GND | 8 | P | Ground (0V) reference |
A1 | 9 | I | Address line 1. Controls the switch configuration as listed in Section 8.5. |
A0 | 10 | I | Address line 0. Controls the switch configuration as listed in Section 8.5. |
S3A | 11 | I/O | Source pin 3 of mux A. Can be an input or output. |
S0A | 12 | I/O | Source pin 0 of mux A. Can be an input or output. |
DA | 13 | I/O | Drain pin (Common) of mux A. Can be an input or output. |
S1A | 14 | I/O | Source pin 1 of mux A. Can be an input or output. |
S2A | 15 | I/O | Source pin 2 of mux A. Can be an input or output. |
VDD | 16 | P | Positive power supply. This pin is the most positive power-supply potential. For reliable operation, connect a decoupling capacitor ranging from 0.1µF to 10µF between VDD and GND. |
Thermal pad | — | Exposed thermal pad with conductive die attached. No requirement to solder this pad. If connected, then it should be left floating or tied to GND. |