MICRF009 データシートの表示(PDF) - Micrel
部品番号
コンポーネント説明
メーカー
MICRF009 Datasheet PDF : 16 Pages
| |||
Micrel
MICRF009
MICRF009, allowing the device to operate in applications
where significant transmitter-receiver frequency
misalignment may exist. The transmit frequency may vary
up to ±0.5% over initial tolerance, aging, and temperature.
In sweep-mode, a band approximately 1.5% around the
nominal transmit frequency is captured. The transmitter
may drift up to ±0.5% without the need to retune the
receiver and without impacting system performance.
The swept-LO technique does not affect the IF bandwidth,
therefore noise performance is not degraded relative to
fixed-mode. The IF bandwidth is 680kHz whether the
device is operating in fixed or sweep-mode.
Due to limitations imposed by the LO sweeping process,
the upper limit on data rate in sweep-mode is
approximately 1250Hz.
Similar performance is not currently available with crystal-
based superheterodyne receivers, which can operate only
with SAW- or crystal-based transmitters.
In sweep-mode, a range reduction will occur in installation
where there is a strong interferer in the swept RF band.
This is because the process indiscriminately includes all
signals within the sweep range. An MICRF009 may be
used in place of a super-regenerative receiver in most
applications.
Step 2: Selecting The Reference Oscillator
All timing and tuning operations on the MICRF009 are
derived from the internal Colpitts reference oscillator.
Timing and tuning is controlled through the REFOSC pin in
one of three ways:
1. Connect a ceramic resonator.
2. Connect a crystal.
3. Drive this pin with an external timing signal.
The specific reference frequency required is related to the
system transmit frequency and to the operating mode of
the receiver as set by the SWEN pin.
Crystal or Ceramic Resonator Selection
Do not use resonators with integral capacitors since
capacitors are included in the IC, also care should be taken
to ensure low ESR crystals are selected. Contact Micrel RF
Applications for suggested suppliers and part numbers.
If operating in fixed-mode, a crystal is recommended. In
sweep-mode either a crystal or ceramic resonator may be
used. When a crystal or ceramic resonator is used, the
minimum voltage is 300mVPP. If using an externally
applied signal, it should be AC-coupled and limited to the
operating range of 0.1VPP to 1.5VPP.
Selecting Reference Oscillator Frequency fT
(Fixed-Mode)
As with any superheterodynes receiver, the difference
between the internal LO (local oscillator) frequency fLO and
the incoming transmit frequency fTX, should equal the IF
center frequency. Equation 1 may be used to compute the
appropriate fLO for a given fTX:
fLO
=
fTX
±
⎛
⎝⎜0.86
fTX
315
⎞
⎠⎟
(1)
Frequencies fTX and fLO are in MHz. Note that two values
of fLO exist for any given fTX, distinguished as “high-side
mixing” and “low-side mixing.” High-side mixing results in
an image frequency above the frequency of interest and
low-side mixing results in a frequency below. There is
generally no preference of one over the other.
After choosing one of the two acceptable values of fLO, use
Equation 2 to compute the reference oscillator frequency
fT:
fT
=
2×
fLO
64.5
(2)
Frequency fT is in MHz. Connect a crystal of frequency fT
to REFOSC on the MICRF009. Four-decimal-place
accuracy on the frequency is generally adequate. The
following table identifies fT for some common transmit
frequencies when the MICRF009 is operated in fixed-
mode.
Transmit Frequency (fTX)
315MHz
Reference Oscillator
Frequency (fT)
9.7941MHz
390MHz
12.1260MHz
418MHz
12.9966MHz
433.92MHz
13.4916MHz
Table 1. Fixed-Mode Recommended Reference Oscillator
Values For Typical Transmit Frequencies (high-side mixing)
Selecting REFOSC Frequency fT
(Sweep Mode)
Selection of the reference oscillator frequency fT in sweep
mode is much simpler than in fixed mode due to the LO
sweeping process. Also, accuracy requirements of the
frequency reference component are significantly relaxed.
In sweep mode, fT is given by Equation 3:
fT
=
2
×
fTX
64.25
(3)
In sweep mode a reference oscillator with frequency
accurate to two-decimal-places is generally adequate. A
crystal may be used and may be necessary in some cases
if the transmit frequency is particularly imprecise.
Transmit Frequency (fTX)
Reference Oscillator
Frequency (fT)
January 18, 2005
7
M9999-011805
(408) 955-1690
Share Link: 