Claims
- 1. A method of testing an input circuit, for a semiconductor device, that detects a level of an input signal V.sub.in by comparing the input signal V.sub.in with a reference signal V.sub.ref, said input circuit comprising a semiconductor material of a first conductivity type, a first region of a second conductivity type opposite the first conductivity type in a surface portion of said semiconductor material, a second region of the first conductivity type in said first region, and a third region of the first conductivity type in said first region, said method comprising the steps of:
- applying the input signal V.sub.in to said second region, wherein V.sub.in is negative;
- applying the reference signal V.sub.ref to said third region; and
- applying to said first region a potential which is lower and has a greater magnitude than the potential of the input signal V.sub.in thereby preventing an injection of carriers generated at a junction between said first and second regions into said third region.
- 2. The method according to claim 1, wherein said step of applying the potential which is lower and has a greater magnitude than the potential of the input signal V.sub.in comprises:
- applying the potential which is lower and has a greater magnitude than the potential of the input signal V.sub.in to a fourth region of the second conductivity type in said first region.
- 3. A method of testing an address buffer circuit, for a semiconductor device, that detects a level of an input signal V.sub.in by comparing the input signal V.sub.in with a reference signal V.sub.ref, said address buffer circuit comprising a semiconductor material of a first conductivity type, a first region of a second conductivity type opposite the first conductivity type in a surface portion of said semiconductor material, a second region of the first conductivity type in said first region, and a third region of the first conductivity type in said first region, said method comprising the steps of:
- applying the input signal V.sub.in to said second region, wherein V.sub.in is negative;
- applying the reference signal V.sub.ref to said third region; and
- applying to said first region a potential which is lower and has a greater magnitude than the potential of the input signal V.sub.in thereby preventing an injection of carriers generated at a junction between said first and second regions into said third region.
- 4. A method for testing an input circuit, for a semiconductor device, that detects a level of an input signal V.sub.in by comparing the input signal V.sub.in with a reference signal V.sub.ref, said input circuit comprising a semiconductor material of a first conductivity type, a first region of a second conductivity type opposite the first conductivity type in a surface portion of said semiconductor material, a first input field effect transistor formed in said first region and including a first current terminal region of the first conductivity type, a second input field effect transistor formed in said first region and including a first current terminal region of the first conductivity type, said method comprising the steps of:
- applying the input signal V.sub.in to the first current terminal region of said first input field effect transistor, wherein V.sub.in is negative;
- applying the reference signal V.sub.ref to the first current terminal region of said second input field effect transistor; and
- applying to said first region a potential which is lower and has a greater magnitude than the potential of the input signal V.sub.in thereby preventing an injection of carriers generated at a junction between said first region and the first current terminal region of said first input field effect input transistor into the first current terminal region of said second field effect transistor.
- 5. The method according to claim 4, wherein said step of applying the potential which is lower and has a greater magnitude than the potential of the input signal V.sub.in comprises:
- applying the potential which is lower and has a greater magnitude than the potential of the input signal V.sub.in to a fourth region of the second conductivity type in said first region.
- 6. A method of testing an input circuit, for a semiconductor device, that detects a level of an input signal V.sub.in by comparing the input signal V.sub.in with a reference signal V.sub.ref, said input circuit comprising a semiconductor material of a first conductivity type, first and second spaced regions of a second conductivity type opposite the first conductivity type in a surface portion of said semiconductor material, a first input field effect transistor formed in said first region and including a first current terminal region of the first conductivity type, a second input field effect transistor formed in said second region and including a first current terminal region of the first conductivity type, a third region of the first conductivity type between said first and second spaced regions, said method comprising the steps of:
- applying a first power source potential to said first region;
- applying the first power source potential to said second region;
- applying the reference signal V.sub.ref to the first current terminal of said first input field effect transistor;
- applying the input signal V.sub.in to the first current terminal of said second input field effect transistor, wherein V.sub.in is negative; and
- applying to said third region a second power source potential higher than the first power source potential thereby preventing an injection of carriers generated at a junction between said first region and the first current terminal region of said first input field effect transistor into the first current terminal region of said second input field effect transistor.
- 7. The method according to claim 6, wherein said step of applying the second power source potential higher than the first power source potential comprises:
- applying the second power source potential higher than the first power source potential to a fourth region of the first conductivity type in said third region.
- 8. The method according to claim 6, wherein
- said step of applying a first power source potential to said first region comprises applying a first power source potential to a region of the second conductivity type in said first region; and
- said step of applying a first power source potential to said second region comprises applying a first power source potential to a region of the second conductivity type in said second region.
- 9. The method according to claim 6, wherein the first power source potential is a ground potential.
- 10. The method according to claim 6, wherein said third region contacts said first and second regions.
- 11. A method of testing an input circuit, for a semiconductor device, that detects a level of an input signal V.sub.in by comparing the input signal V.sub.in with a reference signal V.sub.ref, said input circuit comprising a semiconductor material of a first conductivity type, a first region of a second conductivity type opposite the first conductivity type in a surface portion of said semiconductor material, a second region of the first conductivity type in said first region, and a third region of the first conductivity type in said first region, said method comprising the steps of:
- applying the input signal V.sub.in to said second region;
- applying the reference signal V.sub.ref to said third region; and
- applying to said first region a potential which is lower and has a greater magnitude than a potential of the input signal V.sub.in when the potential of the input signal V.sub.in is negative, thereby preventing an injection of carriers generated at a junction between said first and second regions into said third region.
- 12. A method for testing an input circuit, for a semiconductor device, that detects a level of an input signal V.sub.in by comparing the input signal V.sub.in with a reference signal V.sub.ref, said input circuit comprising a semiconductor material of a first conductivity type, a first region of a second conductivity type opposite the first conductivity type in a surface portion of said semiconductor material, a first input field effect transistor formed in said first region and including a first current terminal region of the first conductivity type, a second input field effect transistor formed in said first region and including a first current terminal region of the first conductivity type, said method comprising the steps of:
- applying the input signal V.sub.in to the first current terminal region of said first input field effect transistor;
- applying the reference signal V.sub.ref to the first current terminal region of said second input field effect transistor; and
- applying to said first region a potential which is lower and has a greater magnitude than a potential of the input signal V.sub.in when the potential of the input signal V.sub.in is negative, thereby preventing an injection of carriers generated at a junction between said first region and the first current terminal region of said first input field effect input transistor into the first current terminal region of said second field effect transistor.
- 13. A method of testing an input circuit, for a semiconductor device, that detects a level of an input signal V.sub.in by comparing the input signal V.sub.in with a reference signal V.sub.ref, said input circuit comprising a semiconductor substrate of a first conductivity type, first and second spaced regions of a second conductivity type opposite the first conductivity type in a surface portion of said semiconductor substrate, a first input field effect transistor formed in said first region and including a first current terminal region of the first conductivity type, a second input field effect transistor formed in said second region and including a first current terminal region of the first conductivity type, a third region of the first conductivity type between said first and second spaced regions, said method comprising the steps of:
- applying a first power source potential to said first region;
- applying the first power source potential to said second region;
- applying the reference signal V.sub.ref to the first current terminal of said first input field effect transistor;
- applying the input signal V.sub.in to the first current terminal of said second input field effect transistor; and
- applying to said third region a second power source potential higher than the first power source potential when a potential of the input signal V.sub.in is negative, thereby preventing an injection of carriers generated at a junction between said first region and the first current terminal region of said first input field effect transistor into the first current terminal region of said second input field effect transistor.
- 14. The method according to claim 13, wherein the first power source potential is a ground potential.
- 15. A method of operating an input circuit in a test mode, said input circuit comprising a semiconductor substrate of a first conductivity type, a first region of a second conductivity type opposite the first conductivity type in a surface portion of said semiconductor substrate, a second region of the first conductivity type in said first region, and a third region of the first conductivity type in said first region, wherein said input circuit detects a logic level of an input signal V.sub.in applied to said second region by comparing the input signal V.sub.in with a reference signal V.sub.ref applied to said third region, said method comprising the steps of:
- applying a negative input potential to said second region, wherein the negative input potential is generated externally of said semiconductor substrate;
- applying the reference signal V.sub.ref to said third region; and applying to said first region a potential which is lower and has a greater magnitude than the negative input potential thereby preventing an injection of carriers generated at a junction between said first and second regions into said third region.
- 16. The method according to claim 15, wherein said step of applying the potential which is lower and has a greater magnitude than the negative input potential comprises:
- applying the potential which is lower and has a greater magnitude than the negative input potential to a fourth region of the second conductivity type in said first region.
- 17. A method of operating an input circuit in a test mode, said input circuit comprising a semiconductor substrate of a first conductivity type, a first region of a second conductivity type opposite the first conductivity type in a surface portion of said semiconductor substrate, a first input field effect transistor formed in said first region and including a first current terminal region of the first conductivity type, a second input field effect transistor formed in said first region and including a first current terminal region of the first conductivity type, wherein said input circuit detects a logic level of an input signal V.sub.in applied to the first current terminal region of said first input field effect transistor by comparing the input signal V.sub.in with a reference signal V.sub.ref applied to the first current terminal region of said second input field effect transistor, said method comprising the steps of:
- applying a negative input potential to the first current terminal region of said first input field effect transistor, wherein the negative input potential is generated externally of said semiconductor substrate;
- applying the reference signal V.sub.ref to the first current terminal region of said second input field effect transistor; and
- applying to said first region a potential which is lower and has a greater magnitude than the negative input potential thereby preventing an injection of carriers generated at a junction between said first region and the first current terminal region of said first input field effect input transistor into the first current terminal region of said second field effect transistor.
- 18. The method according to claim 17, wherein said step of applying the potential which is lower and has a greater magnitude than the negative input potential comprises:
- applying the potential which is lower and has a greater magnitude than the negative input potential to a fourth region of the second conductivity type in said first region.
- 19. A method of operating an input circuit in a test mode, said input circuit comprising a semiconductor substrate of a first conductivity type, first and second spaced regions of a second conductivity type opposite the first conductivity type on a surface portion of said semiconductor substrate, a first input field effect transistor formed in said first region and including a first current terminal region of the first conductivity type, a second input field effect transistor formed in said second region and including a first current terminal region of the first conductivity type, a third region of the first conductivity type formed in said semiconductor substrate and substantially occupying a space between said first and second spaced regions, wherein said input circuit detects a level of an input signal V.sub.in applied to the first current terminal of said second input field effect transistor by comparing the input signal V.sub.in with a reference signal V.sub.ref applied to the first current terminal of said first input field effect transistor, said method comprising the steps of:
- applying a first power source potential to said first region;
- applying the first power source potential to said second region;
- applying the reference signal V.sub.ref to the first current terminal of said first input field effect transistor;
- applying a negative input potential to the first current terminal of said second input field effect transistor, wherein the negative input potential is generated externally of said semiconductor substrate; and
- applying to said third region a second power source potential higher than the first power source potential thereby preventing an injection of carriers generated at a junction between said first region and the first current terminal region of said second input field effect transistor into the first current terminal region of said first input field effect transistor.
- 20. The method according to claim 19, wherein said step of applying the second power source potential higher than the first power source potential comprises:
- applying the second power source potential higher than the first power source potential to a fourth region of the first conductivity type in said third region.
- 21. The method according to claim 19, wherein:
- said step of applying a first power source potential to said first region comprises applying a first power source potential to a region of the second conductivity type in said first region; and
- said step of applying the first power source potential to said second region comprises applying the first power source potential to a region of the second conductivity type in said second region.
- 22. The method according to claim 19, wherein the first power source potential is a ground potential.
- 23. The method according to claim 19, wherein said third region contacts said first and second regions.
Priority Claims (3)
Number |
Date |
Country |
Kind |
2-96513 |
Apr 1990 |
JPX |
|
2-96514 |
Apr 1990 |
JPX |
|
PCT/JP91/00482 |
Apr 1991 |
WOX |
|
Parent Case Info
This application is a continuation of application Ser. No. 07/793,421, filed Dec. 13, 1991, now abandoned.
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Continuations (1)
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Number |
Date |
Country |
Parent |
793421 |
Dec 1991 |
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