TDA5211XT Infineon Technologies, TDA5211XT Datasheet

TDA5211XT

Manufacturer Part Number

TDA5211XT

Description

Manufacturer

Infineon Technologies

Datasheet

1.TDA5211XT.pdf (52 pages)

Specifications of TDA5211XT

Operating Temperature (min)

-40C

Operating Temperature Classification

Automotive

Product Depth (mm)

4.4mm

Product Length (mm)

9.7mm

Operating Supply Voltage (min)

4.5V

Operating Supply Voltage (typ)

Operating Supply Voltage (max)

5.5V

Lead Free Status / Rohs Status

Compliant

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Wireless Components

ASK/FSK Single Conversion Receiver

TDA 5211 Version 2.0

Specification May 2001

Related parts for TDA5211XT

TDA5211XT Summary of contents

Page 1

Wireless Components ASK/FSK Single Conversion Receiver TDA 5211 Version 2.0 Specification May 2001 ...

... Components used in life-support devices or systems must be expressly authorized for such purpose! 1 Critical components of the Infineon Technologies AG, may only be used in life-support devices or systems Infineon Technologies AG critical component is a component used in a life-support device or system whose failure can reasonably be expected to cause the failure of that life- support device or system affect its safety or effectiveness of that device or system ...

Page 3

Product Info General Description The very low power consump- tion single chip FSK/ASK Superhet- erodyne Receiver (SHR) for the frequency band 310 to 350 MHz that is pin compatible with the ASK Receiver TDA5201. The IC offers ...

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Table of Contents 1 Table of Contents . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...

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Applications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...

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Product Description Contents of this Chapter 2.1 Overview ...

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Overview The very low power consumption single chip FSK/ASK Superheterodyne Receiver (SHR) for receive frequencies between 310 and 350 MHz that is pin compatible to the ASK Receiver TDA5201. The IC offers a high level of ...

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Package Outlines Figure 2-1 Wireless Components P-TSSOP-28-1 package outlines TDA 5211 Product Description P_TSSOP_28.EPS Specification, May 2001 ...

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Functional Description Contents of this Chapter 3.1 Pin Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...

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Pin Configuration Figure 3-1 Wireless Components TDA ...

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Pin Definition and Function In the subsequent table the internal circuits connected to the pins of the device are shown. ESD-protection circuits are omitted to ease reading. . Table 3-1 Pin Definition and Function Pin No. Symbol 1 CRST1 ...

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TAGC 4 5 AGND 6 LNO 7 VCC MIX 8 10 AGND 11 FSEL Wireless Components 4 . 1 ...

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IFO DGND 14 VDD 15 MSEL 15 16 CSEL 1 6 Wireless Components 10.7 MHz IF Mixer Output Digital Ground Return 5V Supply ...

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LIM LIMX SLP SLN OPP 21 Wireless Components ...

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FFB THRES 3VOUT DATA Wireless Components ...

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PDO PDWN CRST2 Wireless Components TDA 5211 Functional Description Peak Detector Output ...

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Functional Block Diagram VCC LNO MI MIX LNI 3 RF LNA TAGC VCC 14 DGND 13 11 2,7 5,10 VCC AGND (FSEL) Figure 3-2 3.4 Functional Blocks 3.4.1 Low Noise Amplifier ...

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TAGC pin (Pin 4) and should be chosen along with the appropriate threshold voltage according to the intended operat- ing case and interference scenario to be expected during operation. The opti- mum choice ...

Page 19

The calculation of the value of the necessary quartz load capacitance is shown in Section 4.3, the quartz frequency calculation is explained in Section 4.4. 3.4.5 Limiter The Limiter coupled multistage amplifier with a cumulative gain of ...

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The demodulator circuit is switched off in case of reception of ASK signals. 3.4.7 Data Filter The data filter comprises an OP-Amp with a bandwidth of 100kHz used as a voltage follower and two 100k capacitors a 2nd order Sallen-Key ...

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Applications Contents of this Chapter 4.1 Choice of LNA Threshold Voltage and Time Constant . . . . . . . . . . . . 4-2 4.2 Data Filter Design . . . . . . . . ...

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Choice of LNA Threshold Voltage and Time Constant In the following figure the internal circuitry of the LNA automatic gain control is shown. Figure 4-1 The LNA automatic gain control circuitry consists of an operational transimped- ance amplifier that ...

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Figure 4-2 The switching point should be chosen according to the intended operating sce- nario. The determination of the optimum point is described in the accompanying Application Note, a threshold voltage level ...

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Data Filter Design Utilising the on-board voltage follower and the two 100k 2nd order Sallen-Key low pass data filter can be constructed by adding 2 exter- nal capacitors between pins 19 (SLP) and 22 (FFB) and to pin 21 ...

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Quartz Load Capacitance Calculation The value of the capacitor necessary to achieve that the quartz oscillator is operating at the intended frequency is determined by the reactive part of the negative resistance of the oscillator circuit as shown in ...

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Quartz Frequency Calculation As described in Section 3.4.3 the operating range of the on-chip VCO is wide enough to guarantee a receive frequency range between 310 and 350MHz. The VCO signal is divided by 2 before applied to the ...

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Data Slicer Threshold Generation The threshold of the data slicer can be generated using an external R-C inte- grator as shown in Figure 4-5. The cut-off frequency of the R-C integrator has to be lower than the lowest frequency ...

Page 28

ASK/FSK Switch Functional Description The TDA5211 is containing an ASK/FSK switch which can be controlled via Pin 15 (MSEL). This switch is actually consisting of 2 operational amplifiers that are having a gain case of the ...

Page 29

This offset voltage is generated by the bias current of the negative input of the comparator (i.e. 20nA) running over the external resistor R. This voltage raises the voltage appearing at pin 20 (e.g. 1mV with R = 100k ). ...

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ASK Mode In case the receiver is operated in ASK mode the datapath frequency charac- tersitic is dominated by the data filter alone, thus it is lowpass shaped.The cutoff frequency is determined by the external capacitors C12 and C14 ...

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Principle of the Precharge Circuit In case the data slicer threshold shall be generated with an external RC network as described in Section 4 necessary to use large values for the capacitor C attached to the SLN ...

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This circuit charges the capacitor C with an inrush current I 220µA for a duration of T equal to the voltage U 2.5V. As soon as these voltages are equal or the duration T precharge circuit is disabled. is the ...

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Figure 4- example the choice 22nF and C = 47nF yields = 0.44ms 0.71ms 0.53ms 3 This means that in this case the inrush current could flow for a ...

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Reference Contents of this Chapter 5.1 Electrical Data ...

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Electrical Data 5.1.1 Absolute Maximum Ratings WARNING The maximum ratings may not be exceeded under any circumstances, not even momentarily and individually, as permanent damage to the IC will result. Table 5-1 Absolute Maximum Ratings, Ambient temperature T # ...

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Operating Range Within the operational range the IC operates as explained in the circuit descrip- tion. The AC/DC characteristic limits are not guaranteed. Currents flowing into the device are denoted as positive currents and v.v. Supply voltage: VCC = ...

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AC/DC Characteristics at T AC/DC characteristics involve the spread of values guaranteed within the spe- cified voltage and ambient temperature range. Typical characteristics are the median of the production. Currents flowing into the device are denoted as po- sitive ...

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Table 5-3 AC/DC Characteristics with T Parameter Symbol 3 Voltage Gain Antenna G AntMI 315 MHz RF 4 Noise Figure NF Signal Input LNI GND, low gain mode THRES 1 Input impedance ...

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Table 5-3 AC/DC Characteristics with T Parameter Symbol Signal Output IFO (PIN 12) 1 Output impedance Z 2 Conversion Voltage G Gain f = 315 MHz RF 3 Noise Figure, SSB DSB NF+3dB ...

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Table 5-3 AC/DC Characteristics with T Parameter Symbol PEAK DETECTOR Signal Output PDO (PIN 26) 1 Load current I load 2 Leakage current I leakage CRYSTAL OSCILLATOR Signals CRSTL1, CRISTL 2, (PINS 1/28) 1 Operating frequency f CRSTL 2 Input ...

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Table 5-3 AC/DC Characteristics with T Parameter Symbol PLL DIVIDER Signal CSEL (PIN 16 range 5.xxMHz V CRSTL CSEL 2 f range V CRSTL CSEL 10.xxMHz 3 Input bias current I CSEL CSEL Measured only in lab. Wireless ...

Page 42

AC/DC Characteristics at T Currents flowing into the device are denoted as positive currents and vice versa. Table 5-4 AC/DC Characteristics with T Parameter Symbol Supply Supply Current 1 Supply current PDWN standby mode 2 Supply current, ...

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Table 5-4 AC/DC Characteristics with T Parameter Symbol DATA FILTER Slicer, Signal Output DATA (PIN 25) 1 Maximum Datarate DR 2 LOW output voltage V SLIC_L 3 HIGH output voltage V SLIC_H Slicer, Signal Output DATA (PIN 20) 1 Precharge ...

Page 44

Test Circuit The device performance parameters marked with sured on an Infineon evaluation board. This evaluation board can be obtained together with evaluation boards of the accompanying transmitter device TDA5101 in an evaluation kit that may be ordered on ...

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