HCS200_11 MICROCHIP [Microchip Technology], HCS200_11 Datasheet - Page 6

HCS200_11

Manufacturer Part Number

HCS200_11

Description

Manufacturer

MICROCHIP [Microchip Technology]

Datasheet

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HCS200

3.0

The HCS200 contains 192 bits (12 x 16-bit words) of

EEPROM memory (Table 3-1). This EEPROM array is

used to store the crypt key information, synchronization

value, etc. Further descriptions of the memory array is

given in the following sections.

TABLE 3-1:

3.1

The 64-bit crypt key is used to create the encrypted

message transmitted to the receiver. This key is calcu-

lated and programmed during production using a key

generation algorithm. The key generation algorithm

may be different from the K

the key generation algorithm are typically the transmit-

ter’s serial number and the 64-bit manufacturer’s code.

While the key generation algorithm supplied from

Microchip is the typical method used, a user may elect

to create their own method of key generation. This may

be done providing that the decoder is programmed with

the

decryption purposes.

3.2

This is the 16-bit synchronization value that is used to

create the hopping code for transmission. This value

will increment after every transmission.

3.3

Must be initialized to 0000H.

DS40138D-page 6

ADDRESS

WORD

same

EEPROM MEMORY

ORGANIZATION

Key_0 - Key_3 (64-Bit Crypt Key)

SYNC (Synchronization Counter)

Reserved

means

KEY_0

KEY_1

KEY_2

KEY_3

SYNC

Reserved

SER_0

SER_1

SEED_0

SEED_1

Reserved

CONFIG

MNEMONIC

EEPROM MEMORY MAP

creating

64-bit crypt key

(word 0) LSb’s

64-bit crypt key

(word 1)

64-bit crypt key

(word 2)

64-bit crypt key

(word 3) MSb’s

16-bit synchronization

value

Set to 0000H

Device Serial Number

(word 0) LSb’s

Device Serial Number

(word 1) MSb’s

Seed Value (word 0)

Seed Value (word 1)

Set to 0000H

Configuration Word

DESCRIPTION

algorithm. Inputs to

the

key

for

3.4

SER_0 and SER_1 are the lower and upper words of

the device serial number, respectively. Although there

are 32 bits allocated for the serial number, only the

lower order 28 bits are transmitted. The serial number

is meant to be unique for every transmitter.

3.5

The 2-word (32-bit) seed code will be transmitted when

all three buttons are pressed at the same time (see

Figure 4-2). This allows the system designer to imple-

ment the secure learn feature or use this fixed code

word as part of a different key generation/tracking pro-

cess.

3.6

The 16-bit Configuration Word stored in the EEPROM

array contains information required to form the

encrypted portion of the transmission, as well as the

device option configurations. The following sections

further explain these bits.

TABLE 3-2:

3.6.1

The discrimination value aids the post-decryption

check on the decoder end. It may be any value, but in

a typical system it will be programmed as the 12 Least

Significant bits of the serial number. Values other than

this must be separately stored by the receiver when a

transmitter is learned. The discrimination bits are part

of the information that form the encrypted portion of

the transmission (Figure 4-2). After the receiver has

decrypted a transmission, the discrimination bits are

Bit Number

SER_0, SER_1

(Encoder Serial Number)

SEED_0, SEED_1 (Seed Word)

Configuration Word

DISCRIMINATION VALUE

(DISC0 TO DISC11)

Discrimination Bit 0

Discrimination Bit 1

Discrimination Bit 2

Discrimination Bit 3

Discrimination Bit 4

Discrimination Bit 5

Discrimination Bit 6

Discrimination Bit 7

Discrimination Bit 9

Discrimination Bit 11

SEL

Discrimination Bit 8

Discrimination Bit 10

Low Voltage Trip Point Select (V

Baudrate Select Bit 0 (BSL0)

Reserved, set to 0

)

CONFIGURATION WORD

Bit Description

LOW

HCS200_11 MICROCHIP [Microchip Technology], HCS200_11 Datasheet - Page 6

HCS200_11

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