TDK5101XT Infineon Technologies, TDK5101XT Datasheet

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Wireless Components ASK/FSK Transmitter 315 MHz TDK 5101 Version 1.0 Specification October 2002 Preliminary ...

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... 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 ...

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Product Info General Description The TDK 5101 is a single chip ASK/ FSK transmitter for the frequency band 311-317 MHz. The IC offers a high level of integration and needs only a few external components. The device con- tains a ...

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Product Description Contents of this Chapter 2.1 Overview ...

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Overview The TDK 5101 is a single chip ASK/FSK transmitter for the frequency band 311- 317 MHz. The IC offers a high level of integration and needs only a few external components. The device contains a fully integrated PLL ...

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Package Outlines Figure 2-1 Wireless Components P-TSSOP- TDK 5101 Product Description Specification, October 2002 ...

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

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Pin Configuration Figure 3-1 Table 3-1 Pin No Wireless Components PDWN 1 16 LPD TDK ...

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Pin Definitions and Functions Table 3-2 Pin Symbol Interface Schematic No. 1 PDWN LPD 300 3 VS Wireless Components 1) Disable pin for the complete transmitter cir- cuit. A logic low (PDWN < 0.7 V) ...

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GND 6 ASKDTA FSKDTA Wireless Components Output of the charge pump and input of the VCO control voltage. The loop bandwidth ...

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CLKOUT 300 9 CLKDIV COSC FSKOUT V S 200 µA 1 FSKGND Wireless Components Clock output to supply an external device. An external pull-up resistor has ...

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PAGND 14 PAOUT 15 FSEL CSEL Indicated voltages and currents apply for PLL Enable Mode and Transmit Mode. In Power Down Mode, the values are zero or ...

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FSK POWER DATA DOWN INPUT MODE GND ASK 6 11 DATA INPUT XTAL PD :128/64 10 Osc 6.78/13.56 MHz 9 :2/8 CLKDIV :4/ CRYSTAL CLKOUT 6.78/13.56 LOW POWER GND DETECT V OUTPUT ...

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Functional Blocks 3.4.1 PLL Synthesizer The Phase Locked Loop synthesizer consists of a Voltage Controlled Oscillator (VCO), an asynchronous divider chain, a phase detector, a charge pump and a loop filter fully implemented on chip. The tuning ...

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Power Amplifier For operation at 315 MHz, the power amplifier is fed with the VCO frequency divided possible to feed the power amplifier directly from the voltage controlled oscillator. This is controlled by FSEL (pin ...

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Power Modes The IC provides three power modes, the POWER DOWN MODE, the PLL ENABLE MODE and the TRANSMIT MODE. 3.4.5.1 Power Down Mode In the POWER DOWN MODE the complete chip is switched off. The current consumption is ...

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PDWN ASKDTA FSKDTA Figure 3-5 Table 3-7 provides a listing of how to get into the different power modes Table 3-7 PDWN Low Open High Open Open Open 1) Low: 2) Open: 3) High: Other combinations of the control pins ...

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Recommended timing diagrams for ASK- and FSK-Modulation ASK Modulation using FSKDTA and ASKDTA, PDWN not connected Modes: Power Down High FSKDTA Low Open, High ASKDTA Low Figure 3-6 FSK Modulation using FSKDTA and ASKDTA, PDWN not connected Modes: Power ...

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Alternative ASK Modulation, FSKDTA not connected. Modes: Power Down High PDWN Low Open, High ASKDTA Low Figure 3-8 Alternative FSK Modulation Modes: Power Down High PDWN Low Open, High ASKDTA Low Open, High FSKDTA Low Figure 3-9 Wireless Components PLL ...

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Applications Contents of this Chapter 4.1 50 Ohm-Output Testboard Schematic . . . . . . . . . . . . . . . . . . . . . . . . 4-2 4.2 50 Ohm-Output Testboard ...

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Ohm-Output Testboard Schematic Figure 4-1 Wireless Components X2SMA VCC C3 TDK5101 C1 T1 R3A VCC R3F R4 R2 X1SMA 50 -Output testboard schematic TDK 5101 Applications 0.615 ...

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Ohm-Output Testboard Layout Figure 4-2 Figure 4-3 Wireless Components Top Side of TDK 5101-Testboard with 50 -Output the same testboard as for the TDA 5100. Bottom Side of TDK 5101-Testboard with 50 -Output the ...

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Bill of material (50 Ohm-Output Testboard) Table 4-1 Bill of material Part R1 R2 R3A R3F IC1 Wireless Components ASK 315 MHz FSK ...

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Ohm-Output Testboard: Measurement results Note the specified operating range: 2 4.0 V and 40°C to +125°C. Figure 4-4 Figure 4-5 Wireless Components Pout over temperature TDK5101 315 MHz 9,00 8,00 7,00 6,00 5,00 4,00 3,00 2,00 ...

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Application Hints on the crystal oscillator As mentioned before, the crystal oscillator achieves a turn on time less than 1 msec. To achieve this, a NIC oscillator type is implemented in the TDK 5101. The input impedance of this ...

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Example for the FSK-Mode: FSK modulation is achieved by switching the load capacitance of the crystal as shown below. The frequency deviation of the crystal oscillator is multiplied with the divider factor N of the Phase Locked Loop to the ...

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If the FSK switch is closed, Cv- is equal to Cv1 (C6 in the application diagram). If the FSK switch is open, Cv2 (C7 in the application diagram) can be calculated. Csw: Remark: The 50 -Output testboard shows an FSK-deviation ...

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Application Hints on the Power-Amplifier The power amplifier operates in a high efficient class C mode. This mode is characterized by a pulsed operation of the power amplifier transistor at a current flow angle of passes the fundamental frequency ...

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The output power P characterised by R The power efficiency (and the bandwidth) increase when operating at a slightly higher R The collector efficiency E is defined The diagram of Figure 4-7 was measured directly at the ...

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As Figure 4-8 shows, detuning beyond the bandwidth of the matching circuit results in a significant increase of collector current of the power amplifier and in some loss of output power. This diagram shows the data for the circuit of ...

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Figure 4-9 Above you can see the measurement of the evalboard with a span of 100 MHz. The evalboard has been optimized for 3 V. The load is about 700+j0 the transmit frequency. A tuning-free realization requires a careful design ...

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Reference Contents of this Chapter 5.1 Absolute Maximum Ratings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...

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Absolute Maximum Ratings The characteristic limits are not guaranteed. The maximum ratings must not be exceeded under any circumstances, not even momentarily and individually, as permanent damage to the IC may result. Table 5-1 Parameter Junction ...

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AC/DC Characteristics 5.3.1 AC/DC Characteristics at 3V, 25°C Table 5-3 Supply Voltage Ambient temperature T S Parameter Symbol Current consumption Power down mode I S PDWN PLL enable mode I S PLL_EN Transmit mode I ...

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Table 5-3 Supply Voltage Ambient temperature T S Parameter Symbol FSK Modulation Data Input (Pin 7) FSK Switch on V FSKDTA FSK Switch off V FSKDTA Input bias current FSKDTA I FSKDTA Input bias current FSKDTA ...

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Table 5-3 Supply Voltage Ambient temperature T S Parameter Symbol Power Amplifier Output (Pin 14 Output Power OUT315 transformed to 50 Ohm Frequency Range Selection (Pin 15) Transmit frequency 315 MHz V FSEL Input ...

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AC/DC Characteristics at 2.1 V ... 4.0 V, -40°C ... +125°C Table 5-4 Supply Voltage V = 2.1 V ... 4.0 V, Ambient temperature T S Parameter Symbol Current consumption Power down mode I S PDWN PLL enable mode ...

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Table 5-4 Supply Voltage V = 2.1 V ... 4.0 V, Ambient temperature T S Parameter Symbol FSK Modulation Data Input (Pin 7) FSK Switch on V FSKDTA FSK Switch off V FSKDTA Input bias current FSKDTA I FSKDTA Input ...

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Table 5-4 Supply Voltage V = 2.1 V ... 4.0 V, Ambient temperature T S Parameter Symbol Power Amplifier Output (Pin 14 Output Power at 315 MHz OUT, 315 transformed to 50 Ohm. P OUT, 315 V = ...