1. A test apparatus for testing a plurality of devices under test having different performances, comprising:
a plurality of test modules, connected to either of the plurality of devices under test having different performances, for supplying a test signal to the connected device under test;
a plurality of control apparatuses for controlling said plurality of test modules, and for testing the plurality of devices under test having different performances in parallel; and
a connection switching section for switching topology of said plurality of control apparatuses and said plurality of test modules so that said plurality of control apparatuses connect with the plurality of devices under test having different performances respectively.
2. The test apparatus as claimed in claim 1, wherein the plurality of said control apparatuses control said plurality of test modules according to a test result of the plurality of devices under test having different performances respectively, and perform different test sequences to the plurality of devices under test having different performances in parallel.
3. The test apparatus as claimed in claim 1, wherein said connection switching section switches the topology for the test of the plurality of devices under test having different performances by said plurality of control apparatuses based on an instruction of one of said plurality of control apparatuses before the test of the plurality of devices under test having different performances by said plurality of control apparatuses.
4. The test apparatus as claimed in claim 1, wherein said connection switching section comprises:
a serial interface for transmitting a data packet received from said test module to said control apparatus; and
an IDLE packet generating section for providing an IDLE packet to fill an empty space in serial data transmitted by said serial interface when said serial interface does not receive the data packet from said test module.
5. The test apparatus as claimed in claim 1, wherein each of the plurality of control apparatuses comprises:
a performance judging test executing section for ordering to perform a performance judging test to the device under test for judging performance of the device under test;
an operational specification determination section for determining operational specifications of the device under test based on result of the performance judging test;
an acceptability judging test executing section for ordering to perform an acceptability judging test to the device under test according to the operational specifications determined by said operational specification determination section; and
an acceptability judgment section for judging acceptability of the device under test according to the operational specifications determined by said operational specification determination section based on the result of the acceptability judging test.
6. A test apparatus for testing a plurality of devices under test having different performances, comprising a plurality of control apparatuses for testing the plurality of devices under test having different performances in parallel, wherein each of said plurality of control apparatuses comprises:
a performance judging test executing section for ordering to perform a performance judging test to the device under test for judging performance of the device under test;
an operational specification determination section for determining operational specifications of the device under test based on result of the performance judging test;
an acceptability judging test executing section for ordering to perform an acceptability judging test to the device under test according to the operational specifications determined by said operational specification determination section and
an acceptability judgment section for judging acceptability of the device under test according to the operational specifications determined by said operational specification determination section based on the result of the acceptability judging test.
7. The test apparatus as claimed in claim 6, wherein
said performance judging test executing section orders to perform the performance judging test to the device under test for judging performance of memory of the device under test,
said operational specification determination section determined memory space, which is one of the operational specifications of the device under test, to be a memory space less than that of an operating part of the memory space when a part of the memory is not operating,
said acceptability judging test executing section orders to perform the acceptability judging test to the device under test, which is determined as a device including the memory space determined by said operational specification determination section, and
said acceptability judging section judges the acceptability of the device under test, which is determined as a device including the memory space determined by said operational specification determination section.
8. A test method for testing a plurality of tested devices having different performances in parallel with a plurality of control apparatuses respectively, wherein each of the plurality of control apparatuses comprises the steps of:
ordering to perform a performance judging test to the device under test having different performances from each other for judging performance of the device under test;
determining operational specifications for the respective device under test having different performances from each other of the device under test based on result of the performance judging test;
ordering to perform an acceptability judging test to each of the device under test according to the determined operational specifications; and
an acceptability judgment step section for judging acceptability of each of the device under test according to the determined operational specifications based on the result of the acceptability judging test.
The claims below are in addition to those above.
All refrences to claim(s) which appear below refer to the numbering after this setence.
1. Process for producing dental prostheses from ceramic material, production being carried out as least by way of a CADCAM machining station, wherein the ceramic material to be worked is an unsintered disk-shaped blank or one which has not been subjected to final sintering, and wherein the working of the blank into dental prostheses is undertaken by a tool having a longitudinal axis that is at a right angle or quasi-right angle to parallel or quasi-parallel surfaces of the blank.
2. Process as claimed in claim 1, wherein the ceramic material which has not been subjected to final sintering has hardened to a density which is below the absolute specific weight of this material.
3. Process as claimed in claim 1, wherein the dental prostheses after completed machining both for unsintered blanks and also those which have not undergone final sintering are subjected to a final sintering process until the absolute or quasi-absolute specific weight of the corresponding ceramic material is reached.
4. Process as claimed in claim 3 wherein the ceramic material is a zirconium oxide, and wherein the final sintering process is carried out at least at 1500\xb0 C. for a period of roughly 16 hours.
5. Process as claimed in claim 4, wherein in this final sintering process an absolute specific weight of 6.075 gmm3 is achieved.
6. Process as claimed in claim 1 wherein the blank has means for its nonpositive clamping in a holding tool of the CADCAM machining station.
7. Process as claimed in claim 1 wherein the blank has at least one turned groove extending along a peripheral direction of the blank for nonpositive clamping in a holding tool of the CADCAM machining station.
8. Process as claimed in claim 1 wherein the ceramic material consists of a zirconium oxide.
9. The process for producing dental prostheses as set forth in claim 1, wherein the dental prostheses include bridges, crowns, or implants.
10. Process for producing dental prostheses from ceramic material, production being carried out at least by way of a cutting machining station, wherein the ceramic material to be worked is an unsintered disk-shaped blank or one which has not been subjected to final sintering, and wherein the working of the blank into dental prostheses is undertaken by a tool having a longitudinal axis that is at a right angle or quasi-right angle to the parallel or quasi-parallel surfaces of the blank.
11. The process for producing dental prostheses as set forth in claim 10, wherein the dental prostheses include bridges, crowns, or implants.