HCS500-IP Microchip Technology, HCS500-IP Datasheet - Page 5

HCS500-IP

Manufacturer Part Number

HCS500-IP

Description

KEELOQ CODE HOPPING ENCODER

Manufacturer

Microchip Technology

Datasheet

1.HCS500-IP.pdf (24 pages)

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3.0

3.1

Before the transmitter and receiver can work together,

the receiver must ﬁrst ‘learn’ and store the following

information from the transmitter in EEPROM:

• A check value of the serial number

• The encoder key

• The current synchronization counter value

The decoder must also store the manufacturer’s code

(Section 1.2) in protected memory. This code will

typically be the same for all of the decoders in a system.

The HCS500 has seven memory slots, and, conse-

quently, can store up to seven transmitters. During the

learn procedure, the decoder searches for an empty

memory slot for storing the transmitter’s information.

When all of the memory slots are full, the decoder will

overwrite the last transmitter’s information. To erase all

of the memory slots at once, use the ERASE_ALL com-

mand (C3H).

3.1.1

Learning is initiated by sending the ACTIVATE_LEARN

(D2H) command to the decoder. The decoder acknowl-

edges reception of the command by pulling the data

line high.

For the HCS500 decoder to learn a new transmitter, the

following sequence is required:

1997 Microchip Technology Inc.

Note 1: Learning

Activate the transmitter once.

Activate the transmitter a second time. (In

secure learning mode, the seed transmission

must be transmitted during the second stage of

learn by activating the appropriate buttons on

the transmitter.)

The HCS500 will transmit a learn-status string,

indicating that the learn was successful.

The decoder has now learned the transmitter.

Repeat steps 1-3 to learn up to seven

transmitters

2: If more than seven transmitters are learned,

DECODER OPERATION

Learning a Transmitter to a Receiver

(Normal or Secure Learn)

LEARNING PROCEDURE

nonsequential codes were received or if two

acceptable codes were not decoded within

30 seconds.

the new transmitter will replace the last

transmitter learned. It is, therefore, not pos-

sible

repeatedly learning new transmitters. To

remove

ERASE_ALL transmitters and relearn all

available transmitters.

lost

will

erase

lost

stolen

terminated

transmitters

transmitters,

Preliminary

two

The following checks are performed by the decoder to

determine if the transmission is valid during learn:

• The ﬁrst code word is checked for bit integrity.

• The second code word is checked for bit integrity.

• The encoder key is generated according to the

• The hopping code is decrypted.

• The discrimination value is checked.

• If all the checks pass, the key, serial number

Figure 3-1 shows a ﬂow chart of the learn sequence.

FIGURE 3-1:

selected algorithm.

check value, and synchronization counter values

are stored in EEPROM memory.

Serial number check value

Value with Serial Number

Compare Discrimination

Learn successful. Store:

from Serial Number/

Use Generated Key

3: Learning a transmitter with an encoder key

Wait for Reception

Sync. counter value

Wait for Reception

Non-Repeated

of a Valid Code

Generate Key

that is identical to a transmitter already in

memory replaces the existing transmitter. In

practice, this means that all transmitters

should have unique encoder keys. Learning

a previously learned transmitter does not

use any additional memory slots.

Seed Value

Enter Learn

Encoder key

of Second

Valid Code

to Decrypt

Mode

Equal?

Exit

LEARN SEQUENCE

Yes

HCS500

Unsuccessful

DS40153B-page 5

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HCS500-IP Microchip Technology, HCS500-IP Datasheet - Page 5

HCS500-IP

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