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參數(shù)資料

型號(hào)：	MCRF355
廠商：	Microchip Technology Inc.
英文描述：	CONNECTEUR
中文描述：	13.56 MHz無源RFID器件的防沖突功能
文件頁(yè)數(shù)：	2/23頁(yè)
文件大?。?/td>	568K
代理商：	MCRF355

MCRF355/360

DS21287F-page 2

2002 Microchip Technology Inc.

Description

The MCRF355 and MCRF360 are Microchip’s

13.56 MHz micro

family of RFID tagging devices.

They are uniquely designed read-only passive Radio

Frequency Identification (RFID) devices with an

advanced anti-collision feature. They are programma-

ble with a contact programmer. The device is powered

remotely by rectifying RF magnetic fields that are trans-

mitted from the reader.

The device has a total of six pads (see Figure 1-1).

Three (ant. A, B, V

) are used to connect the external

resonant circuit elements. The additional three pads

PRG

, CLK, V

) are used for programming and test-

ing of the device.

The device needs an external resonant circuit between

antenna A, B, and V

pads. The resonant frequency

of the circuit is determined by the circuit elements

between the antenna A and V

pads. The resonant

circuit must be tuned to the carrier frequency of the

reader for maximum performance. The circuit element

between the antenna B and V

pads is used for data

modulation. See Application Note AN707 for further

operational details.

The MCRF360 includes a 100 pF internal resonant

capacitor (100 pF). By utilizing this internal resonant

capacitor, the device needs external coils only for the

resonant circuit. Examples of the resonant circuit con-

figuration for both the MCRF355 and MCRF360 are

shown in Section 3.0.

When a tag (device with the external LC resonant cir-

cuit) is brought to the reader’s RF field, it induces an RF

voltage across the LC resonant circuit. The device rec-

tifies the RF voltage and develops a DC voltage. The

device becomes functional as soon as V

reaches the

operating voltage level.

The device includes a modulation transistor that is

located between antenna B and V

pads. The transis-

tor has high turn-off (a few M

)

and low turn-on (3

)

resistance. The turn-on resistance is called modulation

resistance (R

). When the transistor turns off, the res-

onant circuit is tuned to the carrier frequency of the

reader. This condition is called uncloaking. When the

modulation transistor turns on, its low turn-on resis-

tance shorts the external circuit element between the

antenna B and V

. As a result, the resonant circuit no

longer resonates at the carrier frequency. This is called

cloaking.

The induced voltage amplitude (on the resonant circuit)

changes with the modulation data: higher amplitude

during uncloaking (tuned), and lower amplitude during

cloaking (detuned). This is called “amplitude modula-

tion” signal. The receiver channel in the reader detects

this amplitude modulation signal and reconstructs the

modulation data.

The occurrence of the cloaking and uncloaking of the

device is controlled by the modulation signal that turns

the modulation transistor on and off, resulting in com-

munication from the device to the reader.

The data stream consists of 154 bits of Manchester-

encoded data at a 70 kHz rate. The Manchester code

waveform is shown in Figure 2-2. After completion of

the data transmission, the device goes into SLEEP

mode for about 100 ms. The device repeats the trans-

mitting and SLEEP cycles as long as it is energized.

During the SLEEP time the device remains in an

uncloaked state.

SLEEP time is determined by a built-in low-current

timer. There is a wide variation of the SLEEP time

between each device. This wide variation of SLEEP

time results in a randomness of the time slot. Each

device wakes up and transmits its data in a different

time slot with respect to each other. Based on this sce-

nario, the reader is able to read many tags that are in

the same RF field.

The device has a total of 154 bits of reprogrammable

memory. All bits are reprogrammable by a contact pro-

grammer. A contact programmer (part number

PG103003) is available from Microchip Technology Inc.

Factory programming prior to shipment, known as

Serialized Quick Turn Programming

(SQTP

), is

also available. The device is available in die, wafer,

bumped wafer, wafer-on-frame, PDIP, SOIC and COB

modules.

Note:

Information provided herein is preliminary

and subject to change without notice.

相關(guān)PDF資料	PDF描述
MCRF360	CONNECTOR
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MDF27A-1822P	Crimping Contact Directly Mounted on Board
MDF12-1822PC	Crimping Contact Directly Mounted on Board

相關(guān)代理商/技術(shù)參數(shù)	參數(shù)描述
MCRF360	制造商:MICROCHIP 制造商全稱:Microchip Technology 功能描述:13.56 MHz Passive RFID Device with Anti-Collision Feature
MCRF450	制造商:MICROCHIP 制造商全稱:Microchip Technology 功能描述:13.56 MHz Read/Write Passive RFID Device
MCRF451	制造商:MICROCHIP 制造商全稱:Microchip Technology 功能描述:13.56 MHz Read/Write Passive RFID Device
MCRF452	制造商:MICROCHIP 制造商全稱:Microchip Technology 功能描述:13.56 MHz Read/Write Passive RFID Device
MCRF455	制造商:MICROCHIP 制造商全稱:Microchip Technology 功能描述:13.56 MHz Read/Write Passive RFID Device

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