WIT2410
©
2000- 2005 Murata
Inc
21
M-2410-0000 Rev G
40kbps (Since the over the air transmission is synchronous, the 32kbps synchronous over
the air rate is equivalent to 40kbps asynchronous into the radio serial port). If the base
transmits continuously at a higher rate than this, unless the default settings are changed,
the transmit buffer will eventually overflow. To allow a higher base throughput, either
increase the base slot size or the hop duration or both. A similar analysis needs to be
performed for the remote radios. Refer to
Section 2.2.3 TDMA Mode
for the remote
throughput calculation.
4.4. Power-On Reset Requirements
The WIT2410 has an internal reset circuit that provides a reset signal to the
microprocessor if the supply voltage to the WIT2410 falls below 2.7 volts. Operation of
the microprocessor at voltages below this voltage is unspecified and can result in
corruption of the program memory. When the radio is first powered on, there is an inrush
current in excess of 250mA. The power supply in the host must be capable of sourcing
this current without the voltage falling below 2.7 volts at the radio. Failure of the power
supply to meet this requirement can result in “motorboating” of the radio where the
inrush current of the radio pulls the supply voltage below 2.7 volts causing the reset
circuit to fire which resets the radio removing the current requirement. Once the voltage
recovers to a level above 2.7 volts, the reset signal is removed from the radio which
causes the inrush current which causes the voltage to drop causing the reset circuit to fire
and so on.
If the host circuitry has a reset circuit that generates a reset signal to the radio anytime
the power supply voltage falls below 2.7 volts, the on-board reset circuit can be disabled.
Murata recommends leaving the reset circuit enabled unless it causes a problem due to a
soft turn-on of the power supply voltage by the host. Please contact Murata Technical
Support for details on disabling the reset circuit.