MICRF506BML Micrel Inc, MICRF506BML Datasheet - Page 22
MICRF506BML
Manufacturer Part Number
MICRF506BML
Description
Manufacturer
Micrel Inc
Datasheet
1.MICRF506BML.pdf
(42 pages)
Specifications of MICRF506BML
Operating Frequency (max)
450000kHz
Operating Temperature (min)
-40C
Operating Temperature (max)
85C
Operating Temperature Classification
Industrial
Modulation Type
FSK
Lead Free Status / Rohs Status
Not Compliant
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
MICRF506BML
Manufacturer:
MICREL
Quantity:
380
0010101
0010110
A6..A0
FEE
The
information from the demodulator to calculate the
frequency offset between it’s receive frequency and
the transmitter frequency. The output of the FEE can
be used to tune the XCO frequency, both for
production calibration and for compensation for
crystal temperature drift and aging.
The inputs to the FEE circuit are the up and down
pulses from the demodulator. Every time a ‘1’ is
updated, an UP-pulse is coming out of the
demodulator, and the same with the DN-pulse every
time the ‘0’ is updated. The expected number of
pulses for every received symbol is 2 times the
modulation index (∆).
The FEE can operate in three different modes;
counting only UP-pulses, only DN-pulses or counting
UP+DN pulses. The number of received symbols to
be counted is either 8, 16, 32 or 64. This is set by
the FEEC_0…FEEC_3 control bit, as follows:
The result of the measurement is the FEE value, this
can be read from register with address 0010110b.
Negative values are stored as a binary no between
0000000 and 1111111. To calculate the negative
value, a two’s complement of this value must be
performed. Only FEE modes where DN-pulses are
counted (10 and 11) will give a negative value.
When the FEE value has been read, the frequency
offset can be calculated as follows:
FEEC_1
FEEC_3
July 2006
0
0
1
1
0
0
1
1
FEE_7
D7
Mode UP:
Mode DN:
Mode UP+DN: Foffset = R/(4P)x(FEE)
-
Frequency
FEE_6
FEEC_0
FEEC_2
D6
-
Table 10. FEEC Control Bit
0
1
0
1
0
1
0
1
FEE_5
D5
-
Error
FEE Mode
Off
Counting UP pulses
Counting DN pulses
Counting UP and DN pulses. UP increments
the counter, DN decrements it.
No. of symbols used for the measurement
8
16
32
65
Foffset = R/(2P)x(FEE-∆Fp)
Foffset = R/(2P)x(FEE+∆Fp)
FEE_4
D4
-
Estimator
FEEC_3
FEE_3
D3
FEEC_2
FEE_2
D2
(FEE)
FEEC_1
FEE_1
D1
uses
FEEC_0
FEE_0
D0
22
where FEE is the value stored in the FEE register,
(Fp is the single sided frequency deviation, P is the
number of symbols/data bit counted and R is the
symbol/data rate. A positive Foffset means that the
received signal has a higher frequency than the
receiver frequency. To compensate for this, the
receivers XCO frequency should be increased (see
ANNEX A) on how to tune the XCO frequency based
on the FEE value).
It is recommended to use Mode UP+DN for two
reasons, you do not need to know the actual
frequency deviation and this mode gives the best
accuracy.
+1 408-944-0800
M9999-092904
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