MAS9180ACTC00 MAS [Micro Analog systems], MAS9180ACTC00 Datasheet - Page 8
MAS9180ACTC00
Manufacturer Part Number
MAS9180ACTC00
Description
AM Receiver IC
Manufacturer
MAS [Micro Analog systems]
Datasheet
1.MAS9180ACTC00.pdf
(15 pages)
TYPICAL APPLICATION (Continued)
Note 2: AGC Capacitor
The AGC and DEC capacitors must have low leakage currents due to very small signal currents through the
capacitors. The insulation resistance of these capacitors should be at minimum 100 MΩ. Also probes with at
least 100 MΩ impedance should be used for voltage probing of AGC and DEC pins. DEC capacitor can be low
leakage chip capacitor.
Note 3: Power Down / Fast Startup Control
Both power down and fast startup are controlled using the PDN pin. The device is in power down (turned off) if
PDN = VDD and in power up (turned on) if PDN = VSS. Fast startup is triggered automatically by the falling edge
of PDN signal, i.e., controlling device from power down to power up. The VDD must be high before falling edge of
PDN to guarantee proper operation of fast startup circuitry. The startup time without proper fast startup control
can be several minutes but with fast startup it is shortened typically to few seconds.
Note 4: Optional Control for AGC On/Hold
AON control pin has internal pull up which turns AGC circuit on all the time if AON pin is left unconnected.
Optionally AON control can be used to hold and release AGC circuit. Stepper motor drive etc. can produce
disturbing amount of noise which can shift the input amplifier gain to unoptimal level. This can be avoided by
controlling AGC hold (AON=VSS) during stepper motor drive periods and releasing AGC (AON=VDD) when
motors are not driven.
Note 5: Ferrite Antenna
The ferrite antenna converts the transmitted radio wave into a voltage signal. It has an important role in
determining receiver performance. Recommended antenna impedance at resonance is around 150 kΩ.
Low antenna impedance corresponds to low noise but often also to small signal amplitude. On the other hand
high antenna impedance corresponds to high noise but also large signal. The optimum performance where
signal-to-noise ratio is at maximum is achieved in between.
The antenna should have also some selectivity for rejecting near signal band disturbances. This is determined by
the antenna quality factor which should be approximately 100. Much higher quality factor antennas suffer from
extensive tuning accuracy requirements and possible tuning drifts by the temperature.
Antenna impedance can be calculated using equation 1 where f
inductance, antenna quality factor and antenna tuning capacitor respectively. Antenna quality factor Q
defined by ratio of resonance frequency f
Table 4 below presents some antenna manufacturers for timesignal application.
Table 4. Antenna Manufacturers and Antenna Types in Alphaphetical Order for Timesignal Application
Manufacturer
HR Electronic GmbH
Sumida
Q
R
antenna
antenna
=
=
2
f
B
π
0
⋅
f
0
⋅
L
⋅
Q
Antenna Type
60716 (60kHz)
60708 (77.5kHz)
ACL80A (40kHz)
antenna
=
2
π
Q
antenna
⋅
f
0
0
⋅
C
and antenna bandwidth B (equation 2).
Dimensions
ø 10 x 60 mm
ø 10 x 80 mm
=
2
π
⋅
1
B
⋅
C
0
, L, Q
Web Link
http://www.hrelectronic.com/
http://www.sumida.com/
ant
Equation 1.
Equation 2.
and C are resonance frequency, coil
15 September, 2005
DA9180.004
8 (15)
ant
is
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