Recently Published Documents

This standard covers the I-test and Vsupply overvoltage latch-up testing of integrated circuits. The purpose of this standard is to establish a method for determining IC latch-up characteristics and to define latch-up detection criteria. Latch-up characteristics are extremely important in determining product reliability and minimizing No Trouble Found (NTF) and Electrical Overstress (EOS) failures due to latch-up. This test method is applicable to NMOS, CMOS, bipolar, and all variations and combinations of these technologies. This standard has been adopted by the Defense Logistics Agency (DLA) as project 5962-1880.

This is a minor editorial change to JESD204C, the details can be found in Annex A. This standard describes a serialized interface between data converters and logic devices. It contains normative information to enable designers to implement devices that communicate with other devices covered by this document. Informative sections are included to clarify and exemplify the standard. Item 192.02B.

This document describes the impact of measurement and/or setup parameters on switching losses of power semiconductor switches; focusing primarily on SiC MOSFET turn-on losses. In terms of turn-off losses, the behavior of SiC MOSFETs is similar to that of existing silicon based power MOSFETs, and as such are adequately represented in typical datasheets.

The Serial Flash Discoverable Parameter (SFDP) standard provides a consistent method of describing the functional and feature capabilities of serial flash devices in a standard set of internal parameter tables. These parameter tables can be interrogated by host system software to enable adjustments needed to accommodate divergent features from multiple vendors. Any company may request a Function Specific ID by making a request to the JEDEC office at juliec@jedec.org. Please include “Function Specific ID Request, JESD216” in the email subject line. Item 1775.73.

Designator: PBGA-B#[#]_I0p35...Item 11-998

This inspection method is for product semiconductor wafers and dice prior to assembly. This test method defines the requirements to execute a standardized external visual inspection and is a non-invasive and nondestructive examination that can be used for qualification, quality monitoring, and lot acceptance.

This standard defines standard specifications of dc interface parameters, switching parameters, and test loading for definition of the SSTUA32S865 and SSTUA32D865 registered buffer with parity for 2 rank by 4 or similar high-density DDR2 RDIMM applications. This is a minor editor revision as shown in Annex A of the document.

Designator: N/A
Item: 11.5-997, Access STP Files for CO-036B
Cross Reference: N/A

Designator: PSXC-P6_I1p2-R11p6x5p85Z2p0-R0p3x0p31H1p16
Item: 11.14-198, Access STP Files for SO-026A
Cross Reference: N/A

This document defines the DDR5 SDRAM specification, including features, functionalities, AC and DC characteristics, packages, and ball/signal assignments. The purpose of this Standard is to define the minimum set of requirements for JEDEC compliant 8Gb through 32Gb for x4, x8, and x16 DDR5 SDRAM devices. This standard was created based on the DDR4 standards (JESD79-4) and some aspects of the DDR, DDR2, DDR3 & LPDDR4 standards (JESD79, JESD79-2, JESD79-3 & JESD209-4). Item 1848.99K.

This standard defines standard specifications of dc interface parameters, switching parameters, and test loading for definition of the SSTUA32866 registered buffer with parity test for DDR2 RDIMM applications. The purpose is to provide a standard for the SSTUA32866 (see Note) logic device, for uniformity, multiplicity of sources, elimination of confusion, ease of device specification, and ease of use. This is a minor editorial revision as shown in Annex A of the document.

This standard provides the functional definition, ball-out configuration and package outline, signal definitions and input/output characteristics for a 28-bit 1:2 registered driver with parity suitable for use on DDR2 RDIMMs. The SSTU32865 integrates the functional equivalent of two SSTU32864 devices (as defined in JESD82-7) into a single device, thereby easing layout and board design constraints especially on high density RDIMMs such as dual rank, by four configurations. Moreover, the optional use of a parity function is provided for, permitting detection and reporting of parity errors across its 22 data inputs. JESD82-9 specifies a 160-pin Thin-profile, fine-pitch ball-grid array (TFBGA) package. This is a minor editorial revision as shown in Annex A of the document.

This test is used to determine the terrestrial cosmic ray Soft Error Rate (SER) sensitivity of solid state volatile memory arrays and bistable logic elements (e.g., flip-flops) by measuring the error rate while the device is irradiated in a neutron or proton beam of known flux. The results of this accelerated test can be used to estimate the terrestrial cosmic ray induced SER for a given terrestrial cosmic ray radiation environment. This test cannot be used to project alpha-particle induced SER.

This specification defines the standard requirements and procedures for terrestrial soft-error-rate (SER) testing of integrated circuits and reporting of results. Both real-time (unaccelerated) and accelerated testing procedures are described. At terrestrial, Earth-based altitudes, the predominant sources of radiation include both cosmic-ray radiation and alpha-particle radiation from radioisotopic impurities in the package and chip materials. An overall assessment of a deviceís SER is complete, only when an unaccelerated test is done, or accelerated SER data for the alpha-particle component and the cosmic-radiation component has been obtained.

Designator: PDMA-N288-I0p85-R133p8x#p#7Z31p8R2p55x0p6
Item: 11.14-206, Access STP Files for MO-329D
Cross Reference: MO-329, SO-023, GS-010

This document defines standard specifications of DC interface parameters, switching parameters, and test loading for definition of the DDR5 Registering Clock Driver (RCD) with parity for driving address and control nets on DDR5 RDIMM and LRDIMM applications. The DDR5RCD01 Device ID is DID = 0x0051.

This document specifies the enclosure form factor which can be used with various type of SSD devices: outline of the top and bottom enclosure, three screw holes to mount the enclosure on the system, and two clamping holes in the top enclosure to lock to the connector. Item 318.06. This is a minor editorial revision detailed in Annex D.

This standard specifies the mechanical and electrical characteristics of the XFM Device. Such characteristics include, among others, package dimensions, pin layout, signal assignment, power supply voltages, currents, and electrical characteristics of the PCIe interface.

This test is used to determine the Soft Error Rate (SER) of solid state volatile memory arrays and bistable logic elements (e.g. flip-flops) for errors which require no more than re-reading or re-writing to correct and as used in terrestrial environments. It simulates the operating condition of the device and is used for qualification, characterization, or reliability monitoring. This test is intended for execution in ambient conditions without the artificial introduction of radiation sources.

The test is applicable for evaluation, screening, monitoring, and/or qualification of all solid state devices.  The high temperature storage test is typically used to determine the effects of time and temperature, under storage conditions, for thermally activated failure mechanisms and time-to failure distributions of solid state electronic devices, including nonvolatile memory devices (data retention failure mechanisms). Thermally activated failure mechanisms are modeled using the Arrhenius Equation for acceleration. During the test, accelerated stress temperatures are used without electrical conditions applied. This test may be destructive, depending on time, temperature and packaging (if any).

Designator: PDSO_N#[#]_I#-R#x#Z#-CturET0p04 
Item: 11.11-994, Access STP Files for MO-340B
Cross Reference: DR4.8, DR4.16, DR4.20

Designator: MMXH-R(##)x36p75Z(##)
Item: 11.14-205, Access STP Files for MO-348A
Cross Reference: N/A

This document defines the LPDDR4 standard, including features, functionalities, AC and DC characteristics, packages, and ball/signal assignments. The purpose of this standard is to define the minimum set of requirements for a JEDEC compliant 16 bit per channel SDRAM device with either one or two channels. LPDDR4 dual channel device density ranges from 4 Gb through 32 Gb and single channel density ranges from 2 Gb through 16 Gb. This document was created using aspects of the following standards: DDR2 (JESD79-2), DDR3 (JESD79-3), DDR4 (JESD79-4), LPDDR (JESD209), LPDDR2 (JESD209-2) and LPDDR3 (JESD209-3). Committee Item: 1824.42D

Release No. 31This revision contains terminology updates only.