MICRF218_11 MICREL [Micrel Semiconductor], MICRF218_11 Datasheet - Page 5
MICRF218_11
Manufacturer Part Number
MICRF218_11
Description
3.3V, 315/433MHz Wide-IF Bandwidth ASK Receiver
Manufacturer
MICREL [Micrel Semiconductor]
Datasheet
1.MICRF218_11.pdf
(23 pages)
Micrel
Symbol
Digital / Control Functions
RSSI
Notes:
1.
2.
3.
4.
5.
6.
7.
8.
November 2011
Exceeding the absolute maximum rating may damage the device.
The device is not guaranteed to function outside its operating rating.
Device are ESD sensitive. Use appropriate ESD precaution. Exceeding the absolute maximum rating may damage the device.
Sensitivity is defined as the average signal level measured at the input necessary to achieve 10-2 BER (bit error rate). The input signal is
defined as a return-to-zero (RZ) waveform with 50% average duty cycle (Manchester encoded) at a data rate of 1kBPS. Conductive
measurement is performed using 50 ohm test circuit .
Spurious reverse isolation represents the spurious component that appear on the RF input pin (ANT) measured into 50 Ohms with an input RF
matching network.
When data burst does not contain preamble, the duty cycle is then defined as total duty cycle, including any “quiet” time between data bursts.
When data bursts contain preamble sufficient to charge the slice level on capacitor Cth, then duty cycle is the effective duty cycle of the burst
alone. [For example, 100msec burst with 50% duty cycle, and 100msec “quiet” time between bursts. If burst includes preamble, duty cycle is
T
1’s/burst) × bit time, and T
Parameter scales linearly with reference oscillator frequency f
frequencies (called F
Parameter at f
Parameter scales inversely with reference oscillator frequency fT. For any reference oscillator frequency other than one of the tabulated
frequencies (called F
Parameter at f
ON
/(T
ON
+ t
Input High Voltage
Input Low Voltage
DO pin output current
Output rise and fall
times
RSSI DC Output
Voltage Range
RSSI response slope
RSSI Output Current
RSSI Output
Impedance
RSSI Response Time
Parameter
OFF
) = 50%; without preamble, duty cycle is T
REFOSC
REFOSC
MHz = ( f
MHz = ( F
TAB
TAB
), compute new parameter value as the ratio:
), compute new parameter value as the ratio:
OFF
REFOSC
= T
TAB
BURST
/ f
MHz /F
REFOSC
– T
Condition
Pins DO (As input), SHDN
Pins DO (As input), SHDN
Source @ 0.8 Vdd
Sink @ 0.2 Vdd
CI = 15 pF, pin DO, 10-90%
-90 dBm to -40 dBm
50% data duty cycle, input power to
Antenna = -20 dBm
MHz ) × ( parameter at F
ON
TAB
.)
) × ( parameter at F
ON
/(T
ON
T
. For any reference oscillator frequency other than one of the tabulated
+ T
TAB
OFF
TAB
5
MHz )
MHz )
+ T
QUIET
) = 50msec/(200msec) = 25%. T
0.8V
Min
DD
ON
is the (Average number of
0.22
±1.5
Typ
260
600
to 2
200
0.3
35
2
(408) 944-0800
M9999-111111
0.2V
Max
MICRF218
DD
Units
µsec
dBm
mV/
Sec
mA
µA
Ω
V
V
V
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