hcs365 Microchip Technology Inc., hcs365 Datasheet - Page 18
hcs365
Manufacturer Part Number
hcs365
Description
Keeloq Code Hopping Encoder
Manufacturer
Microchip Technology Inc.
Datasheet
1.HCS365.pdf
(34 pages)
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HCS365
7.0
Use of the HCS365 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 HCS365 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. The decoder must minimally store each
learned transmitter’s serial number and current syn-
chronization counter value in EEPROM. Additionally,
the decoder typically stores each transmitter’s unique
crypt key. The maximum number of learned transmit-
ters will therefore be relative to the available EEPROM.
A transmitter’s serial number is transmitted in the 32-bit
fixed code, 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
rithm is a symmetrical block cipher so the encryption
and decryption keys are identical and referred to gen-
erally as the crypt key. The encoder receives its crypt
key during manufacturing. The decoder typically calcu-
lates the crypt key by running the encoder serial num-
ber or seed through the key generation routine.
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-
pleted, 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 by 3rd
parties and care must be taken not to infringe.
DS41109D-page 18
INTEGRATING THE HCS365
INTO A SYSTEM
Learning a Transmitter to a
Receiver
EE
L
OQ
algo-
Preliminary
FIGURE 7-1:
Compare Discrimination
Compare Discrimination
Value with Fixed Value
Value with Fixed Value
Synchronization counter
of Second Valid Code
Learn successful Store:
from Serial Number
Use Generated Key
Use Generated Key
Wait for Reception
Wait for Reception
of a Valid Code
Generate Key
Encryption key
Enter Learn
Serial number
Sequential
to Decrypt
to Decrypt
Counters
Mode
Equal
Equal
Exit
?
?
?
Yes
Yes
Yes
TYPICAL LEARN
SEQUENCE
2002 Microchip Technology Inc.
No
No
No
Unsuccessful
Learn
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