HCS410-I/P Microchip Technology, HCS410-I/P Datasheet - Page 17

HCS410-I/P

Manufacturer Part Number

HCS410-I/P

Description

IC,Remote-Control Transmitter/Encoder,CMOS,DIP,8PIN

Manufacturer

Microchip Technology

Series

KEELOQ®r

Type

Code Hopping Encoder and Transponderr

Datasheets

1.HCS500-IP.pdf (2 pages)

2.HCS410P.pdf (36 pages)

Specifications of HCS410-I/P

Applications

Access Control Systems

Mounting Type

Through Hole

Package / Case

8-DIP (0.300", 7.62mm)

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

HCS410-I/P

Manufacturer:

MICROCHIP

Quantity:

12 000

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2.6

2.6.1

When the ACOLI bit is set in the configuration word,

anti-collision mode is entered. The HCS410 will start

sending ACK pulses when it enters a magnetic field.

The ACK pulses stop as soon as the HCS410 detects

a start bit from the decoder. A ‘select encoder’ opcode

(00000) is then sent out by the decoder, followed by a

32-bit serial number. If the serial number matches the

HCS410’s serial number, the HCS410 will acknowl-

edge with the acknowledge sequence as shown in

Figure 2-18. The HCS410 can then be addressed as

normal. If the serial number does not match, the IFF

encoder will stop transmitting ACK pulses until it is

either removed from the field or the correct serial num-

ber is given.

FIGURE 2-18: SERIAL NUMBER CORRECT

2.6.2

When in transponder mode with ACOLI and XPRF set,

the outputs of the HCS410’s LC0:LC1 pins are echoed

on the PWM output line. After transmitting the data on

the LC pins, the data is then transmitted on the PWM

line. The transmission format mirrors a code hopping

transmission. The response replaces the 32-bit code

FIGURE 2-19: IFF INDUCTIVE IN RF OUT

FIGURE 2-20: LED INDICATOR WHEN CHARGING POWER SOURCE

 2001 Microchip Technology Inc.

LC0/1

LCI0/1

PWM

IFFB = 0

IFFB = 1

LED

LC0

IFF Special Features

ANTI-COLLISION (ACOLI)

TRANSPONDER IN/RF OUT

*2-bit preamble precedes the data.

ACKNOWLEDGE SEQUENCE

Select ACK

Encoder

3 T

Opcode

(Read)

3 T

(2*+16 bits)

Response

Preliminary

30 ms

Preamble

hopping portion of the transmission. If the response is

a 16-bit response, the 16 bits are duplicated to make up

the 32-bit code hopping portion. The preamble, serial

number, CRC, and queuing bits are all transmitted as

normal (Figure 2-19).

This feature will be used in applications which use RF

for long distance unidirectional authentication and

short distance IFF.

2.6.3

If the LC circuit on the transponder has a high Q-factor,

the circuit will keep on resonating for a long time after

the field has been shut down by the decoder. This

makes fast communication from the decoder to the

HCS410 difficult. If the IDAMP bit is set to 0, the

HCS410 will clamp the LC pins for 5 µs every 1/4 T

whenever the HCS410 is expecting data from the

decoder. The intelligent dumping pulses start 64 T

after the acknowledge pulses have been sent and con-

tinue for 64 T

base station while sending out dump pulses, the dump

pulses will continue to be sent. This option can be set

in the configuration word.

2.7

If a signal is detected on LC0, the LED pin goes high for

30 ms every 8s (IFFB = 0) or 4s (IFFB 1) to indicate that

the power source is charging.

Note:

Header

INTELLIGENT DAMPING

LED Indicator

Response

If code word blanking is enabled, the

HCS410 will not give any ACK pulses after

a read, write or IFF.

16-bit

32-bit Response

. If the HSC410 detects data from the

Response

(32 bits)

Response

16-bit

Fixed Code

(37 bits)

HCS410

DS40158E-page 17

Ack

30 ms

HCS410-I/P Microchip Technology, HCS410-I/P Datasheet - Page 17

HCS410-I/P

Specifications of HCS410-I/P

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