HCS361-I/SN Microchip Technology, HCS361-I/SN Datasheet - Page 18

HCS361-I/SN

Manufacturer Part Number

HCS361-I/SN

Description

IC CODE HOPP ENCODR 15FUNC 8SOIC

Manufacturer

Microchip Technology

Type

Code Hopping Encoderr

Datasheets

1.HCS361P.pdf (36 pages)

2.HCS361P.pdf (4 pages)

Specifications of HCS361-I/SN

Applications

Remote Secure Access, Keyless Entry

Mounting Type

Surface Mount

Package / Case

8-SOIC (3.9mm Width)

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Meier Automation Equipment Co., Limited

Part Number:

HCS361-I/SN

Manufacturer:

MICROCHIP/微芯

Quantity:

20 000

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HCS361

7.0

Use of the HCS361 in a system requires a compatible

decoder. This decoder is typically a microcontroller with

compatible firmware. Microchip will provide (via a

license agreement) firmware routines that accept

transmissions from the HCS361 and decrypt the

hopping code portion of the data stream. These

routines provide system designers the means to

develop their own decoding system.

7.1

A transmitter must first be ’learned’ by a decoder before

its use is allowed in the system. Several learning strat-

egies are possible, Figure 7-1 details a typical learn

sequence. Core to each, the decoder must minimally

store each learned transmitter’s serial number and cur-

rent synchronization counter value in EEPROM. Addi-

tionally, the decoder typically stores each transmitter’s

unique crypt key. The maximum number of learned

transmitters will therefore be relative to the available

EEPROM.

A transmitter’s serial number is transmitted in the clear

but the synchronization counter only exists in the code

word’s encrypted portion. The decoder obtains the

counter value by decrypting using the same key used

to encrypt the information. The K

symmetrical block cipher so the encryption and decryp-

tion keys are identical and referred to generally as the

crypt key. The encoder receives its crypt key during

manufacturing. The decoder is programmed with the

ability to generate a crypt key as well as all but one

required input to the key generation routine; typically

the transmitter’s serial number.

Figure 7-1 summarizes a typical learn sequence. The

decoder receives and authenticates a first transmis-

sion; first button press. Authentication involves gener-

ating the appropriate crypt key, decrypting, validating

the correct key usage via the discrimination bits and

buffering the counter value. A second transmission is

received and authenticated. A final check verifies the

counter values were sequential; consecutive button

presses. If the learn sequence is successfully com-

plete, the decoder stores the learned transmitter’s

serial number, current synchronization counter value

and appropriate crypt key. From now on the crypt key

will be retrieved from EEPROM during normal opera-

tion instead of recalculating it for each transmission

received.

Certain learning strategies have been patented and

care must be taken not to infringe.

DS40146E-page 18

INTEGRATING THE HCS361

INTO A SYSTEM

Learning a Transmitter to a

Receiver

algorithm is a

FIGURE 7-1:

Compare Discrimination

Value with Fixed Value

Synchronization counter

of Second Valid Code

Learn successful Store:

from Serial Number

Use Generated Key

Wait for Reception

of a Valid Code

Generate Key

Encryption key

Enter Learn

Serial number

Sequential

to Decrypt

Counters

Mode

Equal

Exit

Yes

TYPICAL LEARN

SEQUENCE

2002 Microchip Technology Inc.

Unsuccessful

Learn

HCS361-I/SN Microchip Technology, HCS361-I/SN Datasheet - Page 18

HCS361-I/SN

Specifications of HCS361-I/SN

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