MICRF011BM TR Micrel Inc, MICRF011BM TR Datasheet - Page 2
MICRF011BM TR
Manufacturer Part Number
MICRF011BM TR
Description
Manufacturer
Micrel Inc
Datasheet
1.MICRF011BM_TR.pdf
(11 pages)
Specifications of MICRF011BM TR
Operating Band Frequency
300 to 440MHz
Operating Temperature (min)
-40C
Operating Temperature (max)
85C
Operating Temperature Classification
Industrial
Operating Supply Voltage (min)
4.75V
Operating Supply Voltage (typ)
5V
Operating Supply Voltage (max)
5.5V
Lead Free Status / Rohs Status
Not Compliant
MICRF011
Ordering Information
Pin Configuration (DIP and SOIC)
Pin Description
December 1998b
Pin Number
9/10
2/3
11
12
13
14
1
4
5
6
7
8
Pin Name
REFOSC
VDDRF
VDDBB
VSSRF
VSSBB
SWEN
CAGC
Part Number
MICRF011BN
MICRF011BM
SEL0
SEL1
ANT
CTH
DO
Pin Function
Programs desired Demodulator Filter Bandwidth. This pin in internally pulled-up to VDD. See Table 1.
This pin is the ground return for the RF section of the IC. The bypass capacitor connected from VDDRF to
VSSRF should have the shortest possible lead length. For best performance, connect VSSRF to VSSBB
at the power supply only (i.e., keep VSSBB currents from flowing through VSSRF return path).
This is the receive RF input, internally ac-coupled. Connect this pin to the receive antenna. Input
impedance is high (FET gate) with approximately 2pF of shunt (parasitic) capacitance. For applications
located in high ambient noise environments, a fixed value band-pass network may be connected between
the ANT pin and VSSRF to provide additional receive selectivity and input overload protection. (See
“Application Note 22, MICRF001 Theory of Operation”.)
This pin is the positive supply input for the RF section of the IC. VDDBB and VDDRF should be connected
directly at the IC pins. Connect a low ESL, low ESR decoupling capacitor from this pin to VSSRF, as short
as possible.
This pin is the positive supply input for the baseband section of the IC. VDDBB and VDDRF should be
connected directly at the IC pins.
This capacitor extracts the (DC) average value from the demodulated waveform, which becomes the
reference for the internal data slicing comparator. Treat this as a low-pass RC filter with source impedance
of 118kohms (for REFOSC frequency ft=4.90MHz). Note that variation in source resistance with filter
selection no longer exists, as it does for the MICRF001. (See “Application Note 22, MICRF001 Theory
of Operation”, section 6.4). A standard
Output data pin. CMOS level compatible.
This is the ground return for the baseband section of the IC. The bypass and output capacitors connected
to VSSBB should have the shortest possible lead lengths. For best performance, connect VSSRF to
VSSBB at the power supply only (i.e., keep VSSBB currents from flowing through VSSRF return path).
Integrating capacitor for on-chip receive AGC (Automatic Gain Control). The Decay/Attack time-constant
(TC) ratio is nominally set as 10:1. Use of 0.47 F or greater is strongly recommended for best range
performance. See “Application Note 22, MICRF001 Theory of Operation” for further information.
Programs desired Demodulator Filter Bandwidth. This pin in internally pulled-up to VDD. See Table 1.
This is the timing reference for on-chip tuning and alignment. Connect either a ceramic resonator or crystal
(mode dependent) between this pin and VSSBB, or drive the input with an AC coupled 0.5Vpp input clock.
Use ceramic resonators without integral capacitors.
Note that if operated in FIXED mode, a crystal must be used; however in SWP mode, one may use either a
crystal or ceramic resonator. See “Application Note 22, MICRF001 Theory of Operation” for details on
frequency selection and accuracy.
This logic pin controls the operating mode of the MICRF011. When SWEN = HIGH, the MICRF011 is in
SWP mode. This is the normal (default) mode of the device. When SWEN = LOW, the device operates
as a conventional single-conversion superheterodyne receiver. (See “Application Note 22, MICRF001
Theory of Operation” for details.) This pin is internally pulled-up to VDD.
Temperature Range
QwikRadio
-40 C to +85 C
-40 C to +85 C
2
20% X7R ceramic capacitor is generally sufficient.
tm
Package
14-Pin DIP
14-Pin SOIC
MICRF011
Micrel
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