Radiation damage to integrated injection logic cells
Abstract
The effects of neutron and total dose gamma irradiations on the electrical characteristics of an integrated injection logic (I-squared L) cell and an I-squared L multiple inverter circuit were investigated. These units were designed and fabricated to obtain circuit development information and did not have radiation hardness as a goal. The following parameters of the test structures were measured as a function of total dose and neutron fluence: the dc common-base current gain of the lateral pnp transistor; the dc common-emitter current gain of the vertical npn transistor; the forward current-voltage characteristics of the injector-substrate junction, and the propagation delay versus power dissipation per gate for the multiple inverter circuit. The limitations of the present test structures in a radiation environment and possible hardening techniques are discussed.
- Publication:
-
IEEE Transactions on Nuclear Science
- Pub Date:
- December 1975
- DOI:
- 10.1109/TNS.1975.4328175
- Bibcode:
- 1975ITNS...22.2600P
- Keywords:
-
- Integrated Circuits;
- Logic Design;
- Radiation Damage;
- Transistor Logic;
- Volt-Ampere Characteristics;
- Circuit Reliability;
- Electronic Modules;
- Gamma Rays;
- Inverters;
- Neutron Irradiation;
- Radiation Hardening;
- Electronics and Electrical Engineering