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A test circuit and method for DRAM wafer level pin connectivity

A technology for testing circuits and testing methods, applied in static memory, instruments, etc., can solve problems such as high defect rate and inability to test chip pin connectivity, achieve short time consumption, improve back-end test yield, and ensure product quality. quality effect

Active Publication Date: 2021-05-25
XI AN UNIIC SEMICON CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] Since only part of the DQ pins are connected in the wafer test, and the DM pins and the DQS pins are not connected, the connectivity test of these unconnected chip pins cannot be realized. If the KGD (Known Good Die) unpackaged Particles, then the DPM (defect per million, defective rate per million) for testing is higher

Method used

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  • A test circuit and method for DRAM wafer level pin connectivity
  • A test circuit and method for DRAM wafer level pin connectivity
  • A test circuit and method for DRAM wafer level pin connectivity

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0082] Specifically, such as image 3 As shown, the test process of DQ pins and DQS pins is as follows:

[0083] Step S11 power on the chip:

[0084] Specifically: enter the compression mode, and write the background data in the storage array;

[0085] Writing in compressed mode can save the number of pins that need to be connected in wafer testing, thereby greatly reducing the design and manufacturing cost of pin cards, increasing the number of simultaneous tests, and reducing the overall testing time.

[0086] Step S12 adjusts the compression mode to normal mode:

[0087] Specifically:

[0088] Use the DM forcing circuit to force the DM pin to be low, and the data is input and output normally; the purpose here is that the DM function of the DRAM does not work, and the data is read and written normally through the DQ / DQS pin.

[0089] Using the test mode, it is not necessary to connect the DM pins during wafer testing, which reduces the design and manufacturing costs of p...

Embodiment 2

[0099] Take the DM pin as an example for illustration: specifically, as Figure 4 As shown, the test flow of the DM pin is as follows:

[0100] Step S21 power on the chip:

[0101] Specifically: enter the compression mode, write the background data in the storage array; write in the compression mode, save the number of pins that need to be connected in the wafer test, thereby greatly reducing the design and manufacturing cost of the needle card, and increasing the same test number, reducing the overall test time;

[0102] Step S22 adjusts the compressed mode to the normal mode:

[0103] Specifically: use the DM forcing circuit to force the DM pin to be high, and the data will be shielded. The purpose here is that the DM function of DRAM works, and the data passing through the DQ / DQS pin will be masked.

[0104] In this way, the DM pin does not need to be connected during the test, which reduces the design and manufacturing cost of the needle card, increases the number of s...

Embodiment 3

[0127] In the following embodiments, the DQ / DQS pin and the DM pin are judged respectively.

[0128] refer to Figure 6 , which describes in detail an example of testing the connection performance of all datapath pins in the wafer-level mass production test of a product.

[0129] Step S31: Storage array writes background data

[0130] The chip is powered on, enters the compression mode, and writes background data in the storage array; this background data needs to be different from the data in the specified calibration register to identify whether the data rewriting is successful;

[0131] This step can reuse the writing steps in the normal wafer test, which simplifies the test complexity; there is no need to increase the number of connections of DQ pins, DQS pins and DM pins;

[0132] Step S32: Resetting the read and write timing

[0133] Change the chip's RL (read latency, read latency, product configurable application parameters defined by JEDEC), BL (burst length, burst...

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Abstract

The invention discloses a test circuit and method for the connectivity of DRAM wafer-level pins. The circuit structure includes sequentially connected calibration registers, delay units, OCD circuits, receiving circuits, data paths and storage arrays, DRAM wafer-level DQ The input signal of pin and DQS pin is transmitted into the chip through the receiving circuit, and its output signal is driven by the OCD circuit; the input signal of the DM pin at the DRAM wafer level is transmitted into the chip through the receiving circuit, and its output signal is controlled by the DM forcing circuit The level is high or low. The present invention completely verifies the functionality of all DQ data paths and DQS and DM pins without adding additional pin connections, improves the comprehensiveness of the test, and does not increase the design difficulty and cost of the test needle card ; For subsequent back-end testing, such bad chips are screened out in advance, reducing packaging costs and improving the yield of back-end testing; for KGD type products, DPM is reduced and product quality is guaranteed.

Description

technical field [0001] The invention relates to the field of memory testing, in particular to a testing circuit and method for the connectivity of DRAM wafer-level pins. Background technique [0002] At present, the detection of the pin connectivity of DRAM chips (Dynamic Random Access Memory, that is, dynamic random access memory) is usually implemented at the granular level, because the packaging of the grains will lead out all the chip pins, and the testing machine can target each tube. Pin connectivity is tested. Also, due to the contradiction between the improvement of the number of chip measurements and the number of chip pin connections, the mass production test of DRAM wafers does not meet the conditions for realizing this test item. [0003] In the wafer test of DRAM, in order to increase the number of simultaneous tests of the chip and reduce the test cost, the chip usually works in a special test mode; in this mode, the data writing of the chip is realized by the...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G11C29/00G11C29/56
CPCG11C29/006G11C29/56
Inventor 王帆王可新汤子月刘凯
Owner XI AN UNIIC SEMICON CO LTD