HEF4069BT

The HEF4069BT is designed as a general purpose hex inverter. Each of the six inverters is a single stage. HEF4069BT is 14-lead SO, plastic (SOT108-1).

Some AC characteristics of HEF4069BT have been concluded into several points as follow. (1) For Vdd is 5V its propagation delays high to low would be typ 45ns and max 90ns. (2) For Vdd is 10V its propagation delays high to low would be typ 20ns and max 40ns. (3) For Vdd is 15V its propagation delays high to low would be typ 15ns and max 25ns. (4) For Vdd is 5V its propagation delays low to high would be typ 40ns and max 80ns. (5) For Vdd is 10V its propagation delays low to high would be typ 20ns and max 40ns. (6) For Vdd is 15V its propagation delays low to high would be typ 15ns and max 30ns. (7) For Vdd is 5V its output transition times high to low would be typ 60ns and max 120ns. (8) For Vdd is 10V its output transition times high to low would be typ 30ns and max 60ns. (9) For Vdd is 15V its output transition times high to low would be typ 20ns and max 40ns. (10) For Vdd is 5V its output transition times low to high would be typ 60ns and max 120ns. (11) For Vdd is 10V its output transition times low to high would be typ 30ns and max 60ns. (12) For Vdd is 15V its output transition times low to high would be typ 20ns and max 40ns.

Also some specifications about HEF4069BT's dynamic power dissipation per package. (1) For Vdd is 5V its typical formula for P(uW) would be 600fi + (foCL) x Vdd^2. (2) For Vdd is 10V its typical formula for P(uW) would be 4000fi + (foCL) x Vdd2. (3) For Vdd is 15V its typical formula for P(uW) would be 22000fi + (foCL) x Vdd2. And so on. If you have any question or suggestion or want to know more information of HEF4069BT please contact us for details. Thank you!