MICRF507YML Micrel Inc, MICRF507YML Datasheet - Page 25

MICRF507YML

Manufacturer Part Number

MICRF507YML

Description

Manufacturer

Micrel Inc

Datasheet

1.MICRF507YML.pdf (46 pages)

Specifications of MICRF507YML

Operating Temperature (min)

-40C

Operating Temperature (max)

85C

Operating Temperature Classification

Industrial

Modulation Type

FSK

Lead Free Status / Rohs Status

Compliant

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The front end’s input impedance, with no matching

network, is close to 50Ω as shown in Figure 15. This gives

an input reflection coefficient of about -13dB. Although the

receiver does not require a matching network to optimize

the gain, a matching network is recommended for

harmonic

improved selectivity in reception.

Sallen-Key Filters

Each IF channel includes a pre-amplifier and a pre-filter.

The preamplifier has a gain of 22dB. The IF amplifier also

removes DC offset. Gain varies by less than 0.5dB over a

2.0V to 2.5V variation in power supply.

The pre-filter is implemented as a three-pole Sallen-Key

low-pass filter. It protects the switched-capacitor filter that

follows it from strong adjacent channel signals and also

serves as an anti-aliasing filter. It is programmable to four

different cut-off frequencies as shown in Table 14.

Switched Capacitor Filter

The main IF channel filter is a switched-capacitor

implementation of a six-pole elliptic low pass filter. This

meets selectivity and dynamic range requirements with

minimum total capacitance. The cut-off frequency of the

switched-capacitor filter is adjustable by changing the

clock frequency.

A 6-bit frequency divider, programmed by the ScClk[5:0]

field, is clocked by the crystal oscillator. Its output, which is

20 times the filter’s cutoff frequency, is then divided by 4 to

generate the correct non-overlapping clock phases needed

by the filter. The cut-off frequency of the filter is given by:

For instance, for a crystal frequency of 16MHz and if the 6

bit divider divides the input frequency by 4, the cut-off

frequency of the SC filter is 16MHz/(40 x 4) = 100kHz. A

first-order RC low-pass filter removes clock frequency

components from the signal at the switched-capacitor filter

output.

March 2010

Micrel, Inc.

PF_FC1

ScClk: Switched capacitor filter clock, bits ScClk[4:0]

(bit 0 has a mandatory value of ‘0’).

CUT

XCO

: Filter cutoff frequency

: Crystal oscillator frequency

suppression

Table 14. Pre-Filter Bit Field

PF_FC0

CUT

during

Cutoff (3dB filter corner)

⋅

XCO

ScClk

transmission

100kHz

150kHz

230kHz

340kHz

and

for

The pre-filter and switched-capacitor filters in cascade

must pass the full IF bandwidth of the received signal. In a

zero-IF receiver such as the MICRF507 this bandwidth is

as follows:

where

RSSI

Figure 16 shows a typical plot of the RSSI voltage as a

function of input power. The RSSI termination network is

shown in Figure 17. The RSSI has a dynamic range of

about 50dB from about -110dBm to -60dBm input power.

When an RF signal is received, the RSSI output increases

and can serve as a signal presence indicator. It could be

used to wake up external circuitry that conserves battery

life while in a sleep mode. Note that RSSI only functions in

Receive mode.

not be smaller than f

transmitter [Hz]

OFFSET

DEV

: The bit rate in bits/sec

: Needed receiver bandwidth; f

: Single-sided frequency deviation [Hz]

Pin 14

RSSI

2.2

1.8

1.6

1.4

1.2

0.8

0.6

-125

: Total frequency offset between receiver and

-115

Figure 17. RSSI Network

Figure 16. RSSI Voltage

-105

33kohm, 1nF, 125kbps, BW=200kHz, Vdd=2.5V

-95

33k

OFFSET

-85

RSSI

Pin [dBm]

[Hz]

-75

DEV

-65

-55

C10

1nF

-45

CUT

M9999-032210-B

-35

RSSI

above should

MICRF507

-25

MICRF507YML Micrel Inc, MICRF507YML Datasheet - Page 25

MICRF507YML

Specifications of MICRF507YML

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