MICRF610_0608 MICREL [Micrel Semiconductor], MICRF610_0608 Datasheet - Page 15

MICRF610_0608

Manufacturer Part Number

MICRF610_0608

Description

868-870MHz ISM Band Transceiver Module

Manufacturer

MICREL [Micrel Semiconductor]

Datasheet

1.MICRF610_0608.pdf (20 pages)

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Front End

A low noise amplifier in RF receivers is used to boost the

incoming signal prior to the frequency conversion process.

This is important in order to prevent mixer noise from

dominating the overall front-end noise performance. The

LNA is a two-stage amplifier and has a nominal gain of

approximately 23dB at 868MHz. The front end has a gain

of about 33dB to 35dB. The gain varies by 1-1.5dB over a

2.0V to 2.5V variation in power supply.

The LNA can be bypassed by setting bit LNA_by to ‘1’.

This can be useful for very strong input signal levels. The

front-end gain with the LNA bypassed is about 9-10dB.

The mixers have a gain of about 10dB at 868MHz. The

input impedance is shown in figure 9.

Sallen-Key Filters

Each channel includes a pre-amplifier and a prefilter,

which is a three-pole Sallen-Key lowpass filter. It protects

the following switched-capacitor filter from strong adjacent

channel signals, and it also works as an anti-aliasing filter.

The preamplifier has a gain of 22.23dB. The maximum

output voltage swing is about 1.4Vpp for a 2.25V power

supply. In addition, the IF amplifier also performs offset

cancellation. Gain varies by less than 0.5dB over a 2.0 –

2.5V variation in power supply. The third order Sallen-Key

lowpass filter is programmable to four different cut-off

frequencies according to the table below:

Micrel, Inc.

July 2006

0000000

A6..A0

0000001

A6..A0

PF_FC1

LNA_by

‘1’

‘0’

Figure 9. Input Impedance

PA2

‘0’

PA1

PF_FC0

‘0’

PA0

RSSI_en

Sync_en

LD_en

Cut-off Freq. (kHz)

Mode1

100

150

PF_FC1

Mode0

PF_FC0

’1’

Switched Capacitor Filter

The

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

elliptic filter minimized the total capacitance required for a

given selectivity and dynamic range. The cut-off frequency

of the switched-capacitor filter is adjustable by changing

the clock frequency.

The clock frequency is designed to be 20 times the cut-off

frequency. The clock frequency is derived from the

reference crystal oscillator. A programmable 6-bit divider

divides the frequency of the crystal oscillator. The cut-off

frequency of the filter is given by:

the SC filter to filter the clock frequency.

The lowest cutoff frequency in the pre- and the main

channel filter must be set so that the received signal is

passed with no attenuation, which is frequency deviation

plus modulation. If there are any frequency offset between

the transmitter and the receiver, this must also be taken

into consideration. A formula for the receiver bandwidth

can be summarized as follows:

In battery operated applications that do not need very high

selectivity, the main channel filter can be bypassed by

SC_by=1. This will reduce the Rx current consumption

with ~2mA.

RSSI

CUT

0001000

A6..A0

order RC lowpass filters are connected to the output of

0000001

A6..A0

ScCLK: Switched capacitor filter clock, bits ScClk5-0

where

not be smaller than f

transmitter (Hz)

Baudrate: The baud rate given is bit/sec

main

CUT

XCO

offset

DEV

: Needed receiver bandwidth, fcut above should

⋅

: Filter cutoff frequency

: Single-sided frequency deviation

‘1’

: Crystal oscillator frequency

XCO

: Total frequency offset between receiver and

ScClk

‘1’

channel

‘1’

‘0’

ScClk5

OFFSET

‘0’

filter

ScClk4

RSSI_en

DEV

(Hz)

ScClk3

MICRF610/MICRF610Z

Baudrate

LD_en

ScClk2

switched-capacitor

230

340

PF_FC1

M9999-120205

ScClk1

PF_FC0

ScClk0

MICRF610_0608 MICREL [Micrel Semiconductor], MICRF610_0608 Datasheet - Page 15

MICRF610_0608

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