SLRC40001T/OFE,112 NXP Semiconductors, SLRC40001T/OFE,112 Datasheet - Page 93
SLRC40001T/OFE,112
Manufacturer Part Number
SLRC40001T/OFE,112
Description
IC I.CODE SLRC400 READER 32-SOIC
Manufacturer
NXP Semiconductors
Series
I-Coder
Datasheets
1.SLRC40001TOFE112.pdf
(130 pages)
2.SLRC40001TOFE112.pdf
(132 pages)
3.SLRC40001TOFE112.pdf
(101 pages)
Specifications of SLRC40001T/OFE,112
Rf Type
Read Only
Frequency
13.56MHz
Features
ISO15693, ISO18000-3
Package / Case
32-SOIC (0.300", 7.50mm Width)
Product
RFID Readers
Operating Temperature Range
- 25 C to + 85 C
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Lead Free Status / RoHS Status
Lead free / RoHS Compliant, Lead free / RoHS Compliant
Other names
568-1124-5
935269551112
SLRC400
SLRC41TOFED
935269551112
SLRC400
SLRC41TOFED
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Philips Semiconductors
I•CODE Reader IC
14.3.3 CORRELATION CIRCUITRY
The correlation circuitry calculates the degree of matching between the received and an expected signal.
The output is a measure for the amplitude of the expected signal in the received signal. This is done for both,
the Q- and the I-channel. The correlator delivers two outputs for each of the two input channels, resulting in
four output signals in total.
For optimum performance, the correlation circuitry needs the phase information for the signal coming from
the label. This information has to be defined by the µ-Processor by means of the register BitPhase[7:0]. This
value defines the phase relation between the transmitter and receiver clock in multiples of
t
14.3.4 EVALUATION AND DIGITIZER CIRCUITRY
For each bit-half of the Manchester coded signal the correlation results are evaluated. The evaluation and
digitizer circuit decides from the signal strengths of both bit-halves, whether the current bit is valid, and, if it is
valid, the value of the bit itself or whether the current bit-interval contains a collision.
To do this in an optimum way, the user may select the following levels:
•
•
After transmission of data, the label is not allowed to send its response before a certain time period, called
frame guard time in the standard ISO 15693 (similar to I•CODE1). The length of this time period after
transmission shall be set in the RxWait-Register. The RxWait-Register defines when the receiver is switched
on after data transmission to the label in multiples of one bit-duration.
If register bit RcvClkSelI is set to 1, the I-clock is used to clock the correlator and evaluation circuits. If set to
0, the Q-clock is used.
Note: It is recommended to use the Q-clock.
BitPhase
MinLevel: Defines the minimum signal strength of the stronger bit-half’s signal for being considered valid.
CollLevel: Defines the minimum signal strength that has to be exceeded by the weaker half-bit of the
Manchester-coded signal to generate a bit-collision. If the signal’s strength is below this value, a 1 and 0
can be determined unequivocally.
CollLevel defines the minimum signal strength relative to the amplitude of the stronger half-bit.
= 1/13.56 MHz.
93
Product Specification Rev. 3.1 August 2004
SL RC400
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