AT88SC018-SU-CN-T Atmel, AT88SC018-SU-CN-T Datasheet - Page 2

AT88SC018-SU-CN-T

Manufacturer Part Number

AT88SC018-SU-CN-T

Description

IC CRYPTOCOMPANION RF/MEM 8SOIC

Manufacturer

Atmel

Datasheet

1.AT88SC018-SU-CN.pdf (11 pages)

Specifications of AT88SC018-SU-CN-T

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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1.1.

1.2.

Product Overview

The CryptoCompanion™ Chip is designed as the mate to Atmel’s CryptoRF and CryptoMemory chips, collectively

referred to in the remainder of this document as CRF.

CryptoCompanion

http://www.itl.nist.gov/fipspubs/fip180-1.htm

to concatenate a, b & c in that order and then pad them to a block size of 64 bytes before computing the digest.

CryptoCompanion generates SHA-1 digests of single round datasets at a time.

General Operation

The CRF chip contains secrets that must be known or derived by a host system in order to establish a trusted link

between the two and permit communications to happen. CryptoCompanion stores these secrets in an obscured way in

nonvolatile memory and contains all the circuitry necessary to perform the authentication, password and

encryption/decryption functions specified in the CRF datasheet. In this manner, the secrets do not ever need to be

revealed.

The general cryptographic strategy is as follows:

•

CryptoCompanion Benefits

The following is a partial list of the benefits of using this chip versus storing the algorithms and secrets in standard

FLASH system memory.

•

CryptoCompanion™ Chip

Each CRF chip has a serial or identification number (ID) and authentication secret G

freely readable while G

CryptoCompanion contains an EEPROM that holds a set of common secrets (F

with ID and K

ID, K

G is further diversified by the inclusion of a number (K

Typically, it will be the result of a cryptographic operation on the CRF ID value calculated using other data, secrets

and/or algorithms external to CryptoCompanion. This permits scenarios that offer varying degrees of additional

security.

CryptoCompanion includes a general purpose cryptographic quality random number generator which is used to

seed a mutual authentication process between CryptoCompanion and CRF. If the CRF confirms the

CryptoCompanion challenge, and the CryptoCompanion confirms the CRF response, then the host system

proceeds with CRF operations. In this way the host system may use the CRF without knowing the CRF's secrets

directly.

Keep confidential those core secrets that are used to authenticate with and communicate to/from CRF.

(Store them in EEPROM, use them on-chip)

Flexible system implementation – multiple secrets and policies for different CRF locations within the system.

Multiple manufacturer setup options.

Hardware encryption engines, avoids algorithm disclosure from reverse-compilation of system operating code.

Full hardware security implementation makes it harder for an attacker (even with lab equipment) to get secrets

stored on CryptoCompanion.

Global secrets are protected using strong security, standard algorithm (SHA-1).

Robust random number generation avoids accidental replay for all cryptographic operations using the system, not

just with respect to CRF.

Secure EEPROM storage for configuration information, etc. May permit reduction in the total BOM for the system.

Easy to use – little programming required; no knowledge of security algorithms or protocols, fast time to market.

)

to compute a value of G that is expected to match that in the CRF chip. Specifically, G = SHA-1(F

makes

can never be read and is unique for all tags.

extensive

and elsewhere. In this document, the nomenclature SHA-1(a, b, c) means

use

the

) generated by the host system in a manner of its choosing.

SHA-1

hash

algorithm

). CryptoCompanion combines F

stored in EEPROM. ID is

5277DS–CryptoCompanion–9/09

specified

AT88SC018-SU-CN-T Atmel, AT88SC018-SU-CN-T Datasheet - Page 2

AT88SC018-SU-CN-T

Specifications of AT88SC018-SU-CN-T

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