Pin
Name
Description
The PWIDTH pin sets the width of the ON pulse to the first RF amplifier tPW1 with a resistor RPW to ground (the ON
pulse width to the second RF amplifier tPW2 is set at 1.1 times the pulse width to the first RF amplifier). The ON
pulse width tPW1 can be adjusted between 0.55 and 1 µs with a resistor value in the range of 200 K to 390 K. The
value of RPW is given by:
R
PW = 404* tPW1 - 18.6, where tPW1 is in µs and RPW is in kilohms
15
PWIDTH
A
5ꢀ resistor value is recommended. When this pin is connected to Vcc through a 1 M resistor, the RF amplifi-
ers operate at a nominal 50ꢀ-50ꢀ duty cycle, facilitating high data rate operation. In this case, the RF amplifier
ON times are controlled by the PRATE resistor as described above. It is important to keep the total capacitance
between ground, Vcc and this node to less than 5 pF to maintain stability. When using the high data rate operation
with the sleep mode, connect the 1 M resistor between this pin and CNTRL1 (Pin 17), so this pin is low in the
sleep mode.
VCC2 is the positive supply voltage pin for the receiver RF section and transmitter oscillator. Pin 16 must be by-
passed with an RF capacitor, and must also be bypassed with a 1 to 10 µF tantalum or electrolytic capacitor. See
the ASH Transceiver Designer’s Guide for additional information.
16
17
VCC2
CNTRL1 and CNTRL0 select the receive and transmit modes. CNTRL1 and CNTRL0 both high place the unit in
the receive mode. CNTRL1 high and CNTRL0 low place the unit in the ASK transmit mode (TR1100). CNTRL1
low and CNTRL0 high place the unit in the OOK transmit mode. CNTRL1 and CNTRL0 both low place the unit in
the power-down (sleep) mode. CNTRL1 is a high-impedance input (CMOS compatible). An input voltage of 0 to
300 mV is interpreted as a logic low. An input voltage of Vcc - 300 mV or greater is interpreted as a logic high. An
input voltage greater than Vcc + 200 mV should not be applied to this pin. A logic high requires a maximum
source current of 40 µA. A logic low requires a maximum sink current of 25 µA (1 µA in sleep mode). This pin
must be held at a logic level; it cannot be left unconnected.
CNTRL1
CNTRL0 is used with CNTRL1 to control the receive and transmit modes of the transceiver. CNTRL0 is a
high-impedance input (CMOS compatible). An input voltage of 0 to 300 mV is interpreted as a logic low. An input
voltage of Vcc - 300 mV or greater is interpreted as a logic high. An input voltage greater than Vcc + 200 mV
should not be applied to this pin. A logic high requires a maximum source current of 40 µA. A logic low requires a
maximum sink current of 25 µA (1 µA in sleep mode). This pin must be held at a logic level; it cannot be left un-
connected.
18
CNTRL0
19
20
GND3
RFIO
GND3 is an IC ground pin. It should be connected to GND1 by a short, low inductance trace.
RFIO is the RF input/output pin. This pin is connected directly to the SAW filter transducer. Antennas presenting
an impedance in the range of 35 to 72 ohms resistive can be satisfactorily matched to this pin with a series match-
ing coil and a shunt matching/ESD protection coil. Other antenna impedances can be matched using two or three
components. For some impedances, two inductors and a capacitor will be required. A DC path from RFIO to
ground is required for ESD protection.
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RFM [ RF MONOLITHICS, INC ]
