HCS473T/SL Microchip Technology, HCS473T/SL Datasheet - Page 7

HCS473T/SL

Manufacturer Part Number

HCS473T/SL

Description

IC KEELOQ 3AXIS TRANSCODR 14SOIC

Manufacturer

Microchip Technology

Series

KEELOQ®r

Type

Code Hopping Encoder and Transponderr

Datasheets

1.HCS473P.pdf (68 pages)

2.HCS473P.pdf (4 pages)

Specifications of HCS473T/SL

Applications

Access Control Systems

Mounting Type

Surface Mount

Package / Case

14-SOIC (3.9mm Width), 14-SOL

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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2.0

The HCS473 is designed for small package outline,

cost-sensitive applications by minimizing the number of

external components required for RKE and PKE appli-

cations.

Figure 2-1 shows a typical 3-axis HCS473 RKE/PKE

application.

• The switch inputs have internal pull-down resis-

TABLE 2-1:

2.2

A typical magnetic low frequency sensor (receiving

antenna) consists of a parallel inductor-capacitor circuit

that is sensitive to an externally applied magnetic sig-

nal. This LC circuit is tuned to resonate at the source

signal's base frequency. The real-time voltage across

the sensor represents the presence and strength of the

surrounding magnetic field. By amplitude modulating

the source's magnetic field, it is possible to transfer

data over short distances. This communication

approach is successfully used with distances up to 1.8

meters, depending on transmission strengths and sen-

sor sensitivity. Two key factors that greatly affect com-

munication range are:

 2002 Microchip Technology Inc.

S3/RFEN

LCX

LCY

LCZ

LCCOM

DATA

LED

Pin Name

tors and integrated debouncing allowing a switch

to be directly connected to the inputs.

DDT

SST

Sensor tuning

A properly tuned sensor's relative sensitivity

DEVICE DESCRIPTION

LF Antenna Considerations

Number

PINOUT SUMMARY

Button input pin with Schmitt Trigger detector and internal pull-down resistor (Figure 2-3).

Multi-purpose input/output pin (Figure 2-4).

• Button input pin with Schmitt Trigger detector and internal pull-down resistor.

• RFEN output driver.

Transponder supply voltage. Regulated voltage output for strong inductive field.

Sensitive transponder input X (Figure 2-7). A strong signal on this pin is internally regulated

and supplied on V

Sensitive transponder input Y (Figure 2-7)

Sensitive transponder input Z (Figure 2-7)

Transponder bias output (Figure 2-7)

Transponder ground reference, must be connected to V

Ground reference

Transmission data output (Figure 2-5)

Open drain LED output (Figure 2-6)

Positive supply voltage

for low-battery operation/recharging.

Preliminary

The transponder circuitry requires only the addition of

external LC-resonant circuits for inductive communica-

tion capability.

• The open-drain LED output allows an external

• The DATA output can be directly connected to the

2.1

A description of pinouts for the HCS473 can be found

in Table 2-1.

An LC antenna’s component values may be initially cal-

culated using the following equation. “Initially” because

there are many factors affecting component selection.

It is not this data sheet’s purpose to present in-depth

details regarding LC antenna and their tuning. Please

refer to “Low Frequency Magnetic Transmitter Design

Application Note”, AN232, for appropriate LF antenna

design details.

Description

resistor for customization of LED brightness - and

current consumption.

RF circuit or connected in conjunction with S3/

RFEN to a PLL.

Note:

Pinout Overview

Microchip also has a confidential Applica-

tion Note on Magnetic Sensors (AN832C).

Contact Microchip for a Non-Disclosure

Agreement in order to obtain this applica-

tion note.

2πF

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HCS473

DS40035C-page 5

HCS473T/SL Microchip Technology, HCS473T/SL Datasheet - Page 7

HCS473T/SL

Specifications of HCS473T/SL

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