DS28E83Q+T Analog Devices / Maxim Integrated

說明：

安全IC/認證IC 1-WIRE 5K RAD SECURE AUTHENTICATOR

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商品屬性	屬性值	選擇屬性
製造商:	Analog Devices Inc.
產品類型:	安全IC/認證IC
付運限制：	Mouser目前不在您的地區出售本產品。
RoHS:
數據匯流排寬度:	64 bit
電源電壓 - 最大值:	3.63 V
電源電壓 - 最小值:	2.97 V
最低工作溫度:	0 C
最高工作溫度:	+ 50 C
安裝風格:	SMD/SMT
封裝/外殼:	TDFN-6
封裝:	Reel
封裝:	Cut Tape
封裝:	MouseReel
品牌:	Analog Devices / Maxim Integrated
接口類型:	1-Wire
存儲類型:	ROM
運作供電電流:	40 uA
產品類型:	Security ICs / Authentication ICs
系列:	DS28E83
原廠包裝數量:	2500
子類別:	Security ICs / Authentication ICs
電源電流 - 最大值:	360 uA
類型:	Radiation Resistant Authenticator

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所選屬性: 0

篩選文檔:

規格書

DS28E83Q+T 規格書

RoHS Certificate (PDF)

CNHTS:: 8542399000
CAHTS:: 8542320040
USHTS:: 8542320051
MXHTS:: 8542320299
ECCN:: EAR99

Security Devices for Medical Disposables

Analog Devices Security Devices for Medical Disposables offer solutions for many of the challenges the medical industry faces. Surgical tools, pulse-oximetry probes, medication cartridges, and other medical disposables can fall victim to unauthorized overuse, counterfeiting, and other security breaches. Analog Devices offers a crypto-strong, cost-effective portfolio of DeepCover^® secure authenticators and 1-Wire^® memory devices optimized to protect the integrity of medical disposables.

DS28E83 DeepCover 1-Wire Authenticator

Analog Devices Inc. DS28E83 DeepCover 1-Wire Authenticator is a radiation-resistant secure authenticator that provides a core set of cryptographic tools. These tools are derived from integrated asymmetric (ECC-P256) and symmetric (SHA-256) security functions. ADI DS28E83 integrates a FIPS-compatible true random number generator (TRNG), 10Kb of secured OTP, one configurable GPIO, and a unique 64-bit ROM identification number (ROM ID). The ECC public/private key capabilities operate from the NIST-defined P-256 curve and include FIPS 186-compliant ECDSA signature generation and verification to support a bidirectional asymmetric key authentication model. The SHA-256 secret key capabilities comply with FIPS 180 and are flexibly used in conjunction with ECDSA operations or independently for multiple HMAC functions.