XR2211ACP-F Exar Corporation, XR2211ACP-F Datasheet - Page 6

XR2211ACP-F

Manufacturer Part Number

XR2211ACP-F

Description

IC FSK DEMOD/TONE DECOD 14PDIP

Manufacturer

Exar Corporation

Datasheet

1.XR2211ACP-F.pdf (24 pages)

Specifications of XR2211ACP-F

Package / Case

14-DIP (0.300", 7.62mm)

Includes

Carrier Detector

Function

FSK Demodulator, Tone Decoder

Voltage - Supply

4.5 V ~ 20 V

Current - Supply

5mA

Power (watts)

900mW

Operating Temperature

0°C ~ 70°C

Mounting Type

Through Hole

Mounting Style

Through Hole

Product

PLL

Supply Voltage

4.5 Volts to 20 Volts

Frequency Range

0.01Hz To 300kHz

Rf Type

Quadrature

Supply Voltage Range

4.5V To 20V

Rf Ic Case Style

DIP

No. Of Pins

Operating Temperature Range

0Â°C To +70Â°C

Filter Terminals

DIP

Rohs Compliant

Yes

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Interface

Number Of Circuits

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

Other names

1016-1309-5

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PRINCIPLES OF OPERATION

Signal Input (Pin 2): Signal is AC coupled to this

terminal. The internal impedance at pin 2 is 20K .

Recommended input signal level is in the range of 10mV

rms to 3V rms.

Quadrature Phase Detector Output (Pin 3): This is the

high impedance output of quadrature phase detector and

is internally connected to the input of lock detect voltage

comparator. In tone detection applications, pin 3 is

connected to ground through a parallel combination of R

and C

detect outputs. If the tone detect section is not used, pin 3

can be left open.

Lock Detect Output, Q (Pin 6): The output at pin 6 is at

“low” state when the PLL is out of lock and goes to “high”

state when the PLL is locked. It is an open collector type

output and requires a pull-up resistor, R

proper operation. At “low” state, it can sink up to 5mA of

load current.

Lock Detect Complement, (Pin 5): The output at pin 5 is

the logic complement of the lock detect output at pin 6.

This output is also an open collector type stage which can

sink 5mA of load current at low or “on” state.

FSK Data Output (Pin 7): This output is an open collector

logic stage which requires a pull-up resistor, R

proper operation. It can sink 5mA of load current. When

decoding FSK signals, FSK data output is at “high” or “off”

state for low input frequency, and at “low” or “on” state for

high input frequency. If no input signal is present, the logic

state at pin 7 is indeterminate.

FSK Comparator Input (Pin 8): This is the high

impedance input to the FSK voltage comparator.

Normally, an FSK post-detection or data filter is

connected between this terminal and the PLL phase

detector output (pin 11). This data filter is formed by R

and C

comparator is set by the internal reference voltage, V

available at pin 10.

Reference Voltage, V

biased at the reference voltage level, V

- 650mV. The DC voltage level at this pin forms an internal

reference for the voltage levels at pins 5, 8, 11 and 12. Pin

XR-2211A

Rev. 1.04

(see Figure 3 ) to eliminate the chatter at lock

(see Figure 3 ). The threshold voltage of the

REF

(Pin 10): This pin is internally

REF

: V

, to V

REF

, to V

= V

REF

for

10 must be bypassed to ground with a 0.1 F capacitor for

proper operation of the circuit.

Loop Phase Detector Output (Pin 11): This terminal

provides a high impedance output for the loop phase

detector. The PLL loop filter is formed by R

connected to pin 11 (see Figure 3 ). With no input signal, or

with no phase error within the PLL, the DC level at pin 11 is

very nearly equal to V

available at the phase detector output is equal to 2 x V

VCO Control Input (Pin 12): VCO free-running

frequency is determined by external timing resistor, R

connected from this terminal to ground. The VCO

free-running frequency, f

where C

For optimum temperature stability, R

range of 10K

This terminal is a low impedance point, and is internally

biased at a DC level equal to V

current drawn from pin 12 must be limited to < 3mA for

proper operation of the circuit.

VCO Timing Capacitor (Pins 13 and 14): VCO

frequency is inversely proportional to the external timing

capacitor, C

Figure 6 ). C

200pF to 10 F.

VCO Frequency Adjustment: VCO can be fine-tuned by

connecting a potentiometer, R

(see Figure 10 ).

VCO Free-Running Frequency, f

have a separate VCO output terminal. Instead, the VCO

outputs are internally connected to the phase detector

sections of the circuit. For set-up or adjustment purposes,

the VCO free-running frequency can be tuned by using

the generalized circuit in Figure 3 , and applying an

alternating bit pattern of O’s and 1’s at the known mark

and space frequencies. By adjusting R

then be tuned to obtain a 50% duty cycle on the FSK

output (pin 7). This will ensure that the VCO f

accurately referenced to the mark and space frequencies.

is the timing capacitor across pins 13 and 14.

, connected across these terminals (see

must be non-polar, and in the range of

to 100K

REF

. The peak to peak voltage swing

· C

(see Figure 9 ).

, is:

REF

, in series with R

. The maximum timing

: XR-2211A does not

must be in the

, the VCO can

at pin 12

value is

and C

REF

XR2211ACP-F Exar Corporation, XR2211ACP-F Datasheet - Page 6

XR2211ACP-F

Specifications of XR2211ACP-F

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