TDA5200 Infineon Technologies, TDA5200 Datasheet - Page 19

IC LP SGL CONV ASK P-TSSOP-28

TDA5200

Manufacturer Part Number
TDA5200
Description
IC LP SGL CONV ASK P-TSSOP-28
Manufacturer
Infineon Technologies
Type
Receiverr
Datasheet

Specifications of TDA5200

Package / Case
28-TSSOP
Frequency
433MHz, 868MHz
Sensitivity
-107dBm
Modulation Or Protocol
ASK
Applications
Alarm Systems, Communication Systems
Current - Receiving
4.8mA
Data Interface
PCB, Surface Mount
Antenna Connector
PCB, Surface Mount
Voltage - Supply
4.5 V ~ 5.5 V
Operating Temperature
-40°C ~ 85°C
Operating Frequency
870 MHz
Operating Supply Voltage
5 V
Maximum Operating Temperature
+ 85 C
Minimum Operating Temperature
- 40 C
Mounting Style
SMD/SMT
Operating Temperature (min)
-40C
Operating Temperature (max)
85C
Operating Temperature Classification
Industrial
Product Depth (mm)
4.4mm
Product Length (mm)
9.7mm
Operating Supply Voltage (min)
4.5V
Operating Supply Voltage (typ)
5V
Operating Supply Voltage (max)
5.5V
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Features
-
Memory Size
-
Data Rate - Maximum
-
Lead Free Status / Rohs Status
Compliant
Other names
SP000016381
TDA5200INTR
TDA5200XT
TDA5200XT
TDA5200XTINTR
TDA5200XTINTR

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3.4
3.4.1
The LNA is an on-chip cascode amplifier with a voltage gain of 15 dB to 20 dB. The gain figure is determined by
the external matching networks situated ahead of LNA and between the LNA output LNO (Pin 6) and the Mixer
Inputs MI and MIX (Pin 8 and Pin 9). The noise figure of the LNA is approximately 3.2 dB, the current consumption
is 500 µA. The gain can be reduced by approximately 18 dB. The switching point of this AGC action can be
determined externally by applying a threshold voltage at the THRES pin (Pin 23). This voltage is compared
internally with the received signal (RSSI) level generated by the limiter circuitry. In case that the RSSI level is
higher than the threshold voltage the LNA gain is reduced and vice versa. The threshold voltage can be generated
by attaching a voltage divider between the 3VOUT pin (Pin 24) which provides a temperature stable 3 V output
generated from the internal bandgap voltage and the THRES pin as described in
of the AGC action can be determined by connecting a capacitor to the TAGC pin (Pin 4) and should be chosen
along with the appropriate threshold voltage according to the intended operating case and interference scenario
to be expected during operation. The optimum choice of AGC time constant and the threshold voltage is described
in
3.4.2
The Double Balanced Mixer down-converts the input frequency (RF) in the range of 433-435 MHz / 868-870 MHz
to the intermediate frequency (IF) at 10.7 MHz with a voltage gain of approximately 21 dB. A low pass filter with a
corner frequency of 20 MHz is built on chip in order to suppress RF signals to appear at the IF output (IFO pin).
The IF output is internally consisting of an emitter follower that has a source impedance of approximately 330 Ω
to facilitate interfacing the pin directly to a standard 10.7 MHz ceramic filter without additional matching circuitry.
3.4.3
The Phase Locked Loop synthesizer consists of a VCO, an asynchronous divider chain, a phase detector with
charge pump and a loop filter and is fully implemented on-chip. The VCO is including spiral inductors and varactor
diodes. It’s nominal centre frequency is 840 MHz. No additional components are necessary.
Local oscillator high side injection has to be used for receive frequencies below approximately 420 MHz or
840 MHz, low side injection for receive frequencies above approximately 420 MHz or 840 MHz - see also
Chapter
and the 434 MHz ISM bands.
The oscillator signal is fed both to the synthesizer divider chain and to the down-converting mixer. In case of
operation in the 433-435 MHz range, the signal is divided by two before it is fed to the mixer. This is controlled by
the selection pin FSEL (Pin 11) as described in the following table. The overall division ratio of the divider chain
can be selected to be either 128 or 64, depending on the frequency of the reference oscillator quartz (see below).
The loop filter is also realized fully on-chip.
Table 2
FSEL
Open
Shorted to ground
Data Sheet
Chapter
4.4. Therefore low-side injection of the local oscillator has to be used for operation both in the 868 MHz
4.1.
Mixer
PLL Synthesizer
Functional Blocks
Low Noise Amplifier (LNA)
FSEL Pin Operating States
19
RF Frequency
433-435 MHz
868-870 MHz
ASK Single Conversion Receiver
Chapter
Revision 3.0, 2010-12-28
Functional Description
4.1. The time constant
TDA 5200

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