Download Print this page

AUREL TX-SAW/433 Instruction Manual

Advertisement

Quick Links

TX-SAW / 433 s-Z Transmitter
SAW Transmitter module with external antenna, for utilisations with ON-OFF modulation of a RF carrier with digital data.
Pin-out
Connections
Pin 1-4-13
Ground
Pin 2
Input Mod.
Pin 3
Input Mod.
Pin 11
RF output
Pin 15
+V
Max voltage values allowed
Description
Voltage supply (Vs) to pin 15
Technical features [ETS 300 200]
Description
Working frequency centre
Voltage supply (Vs)
Absorbed current
RF output power (E.R.P.)
Output impedance pin 11
RF spurious emissions
Modulation frequency
Input high logic level
Input low logic level
Working temperature
Working temperature [ETS 300 200]
Dimensions
Note1: Values have been obtained by applying the test system shown in Fig. 1 and maximum 5,5 V power supply.
Note2: The minimum and maximum showed values are determined by the device's construction tolerance.
To define the working frequency of the device, add to these values the deviation caused by the thermal variations (see fig. 3).
Note3: To keep the parameters within the limits established by the rules in force, (see para. "Reference Rules"), it is recommended to
supply the circuit with not more than 5,5V and to comply with all the recommendations specified in para "Device usage".
Messrs AUR°EL declines all responsibilities in case the a.m. recommendations are disregarded.
Technical features are subject to change without notice. AUR°EL S.p.A does not feel responsible for any damage caused by the device's misuse.
AUR°EL S.p.A. Via Foro dei Tigli, 4 - 47015 Modigliana (FC) – ITALY
Tel.: +390546941124 – Fax: +390546941660
http://www.aurel.it
- email:
GND Connections. To be externally connected to a single ground plate.
(see fig. 3)
TTL 0÷5V type data input with a minimum 5KΩ resistance. Connection
utilized only if the supply to pin 15 is +12V ±10% (see fig. 2)
TTL 0÷5V type data input with a minimum 5KΩ resistance. Connection
utilized only if the supply to pin 15 is +5V ±10% (see fig. 2)
RF output with a characteristic impedence of 50Ω
Connection to the positive pole of the +5V ±10% supply
Max
13,5
aurel@aurel.it
1
Unity
V
Min
Typical
Max
433.82
433.92
434.02
4.5
5
4
50
-50
4.5
5
0
-20
-20
38.1 x 13.2 x 3 mm
TX-SAW/433 s-Z
Instruction Manual
Lot (Week/Year)
15
Remarks
Unity
MHz
5.5
V
mA
+10
dBm
dBm
4
kHz
5.5
V
0.2
V
+80
°C
+55
°C
Code
Remarks
See notes 1 and 2
See note 1
See note 1
See fig. 5
See fig. 5
See Pin-out
Rev. A, 19-09-2001
Pag 1 of 5

Advertisement

loading
Need help?

Need help?

Do you have a question about the TX-SAW/433 and is the answer not in the manual?

Questions and answers

Subscribe to Our Youtube Channel

Summary of Contents for AUREL TX-SAW/433

  • Page 1 TX-SAW/433 s-Z Instruction Manual TX-SAW / 433 s-Z Transmitter SAW Transmitter module with external antenna, for utilisations with ON-OFF modulation of a RF carrier with digital data. Pin-out Lot (Week/Year) Code Connections Pin 1-4-13 Ground GND Connections. To be externally connected to a single ground plate.
  • Page 2: Device Usage

    TX-SAW/433 s-Z Instruction Manual The declared technical features have been obtained by applying the following testing system: Fig. 1 Square wave generator : Spectrum +5V DC 4 KHz frequency analyzer Power Out Level 0÷ ÷ 5V Supplier RF 50 Ω Ω Input Pin 3 50 Ù...
  • Page 3: Antenna Connection

    TX-SAW/433 s-Z Instruction Manual Fig. 2 50 Ohm line 1. It must be the shortest as possible. 2. 1,8 mm wide for 1 mm thick FR4 printed circuits and 2,9 mm wide for 1,6 mm thick FR4 printed circuits. It must be kept 2 mm away from the ground circuit on the same side.
  • Page 4 In case a 50 Ω impedance coaxial cable is connected, then 5 mm radius will suffice. Reference Rules The TX-SAW/433 s-Z transmitter complies with the EU Rules ETS 300-220, with a 5,5V max. supply. The equipment has been tested according to rule EN 60950 and it can be utilized inside a special insulated housing that assures its compliance with the above mentioned rule.
  • Page 5 TX-SAW/433 s-Z Instruction Manual Reference curves Fig.3 Temperature - Frequency delta =433.92 ±100KHz -100 Temperature [°C] The curve has been obtained by the testing system shown in Fig.1. 5V Power supply Fig.4 Temperature - Output power delta Temperature [°C] The curve has been obtained by the testing system shown in Fig.1 5V supply, RF output 433,92MHz, ±100 kHz, output power 8dBm ±2dB...