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PDF TXM-433-LR Data sheet ( Hoja de datos )
| Número de pieza | TXM-433-LR | |
| Descripción | Transmitter Module | |
| Fabricantes | Linx Technologies | |
| Logotipo |  |
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Hay una vista previa y un enlace de descarga de TXM-433-LR (archivo pdf) en la parte inferior de esta página. Total 17 Páginas | ||
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LR Series
Transmitter Module
Data Guide
1 page  
Typical Performance Graphs
1. 500mV/div 2. 2.00V/div
1
Figure 5: Modulation Delay
100nS/div
2
12
10
8
6
4
2
0
9.00 6.00 3.00 0.00
Figure 6: Output Power vs. LADJ Resistor
-3.00 -6.00 -9.00
Output Power (dBm)
-12.00 -15.00 -18.00 -21.00
4.5
4
3.5
3
2.5
2
6.00
3.00
0.00
-3.00
-6.00
-9.00
Output Power (dBm)
Figure 7: Current Consumption vs. Output Power (50% of Duty Cycle)
-12.00
-15.00
-18.00
-21.00
–4–
–5–
5 Page 
Interference Considerations
The RF spectrum is crowded and the potential for conflict with unwanted
sources of RF is very real. While all RF products are at risk from
interference, its effects can be minimized by better understanding its
characteristics.
Interference may come from internal or external sources. The first step
is to eliminate interference from noise sources on the board. This means
paying careful attention to layout, grounding, filtering and bypassing in
order to eliminate all radiated and conducted interference paths. For
many products, this is straightforward; however, products containing
components such as switching power supplies, motors, crystals and other
potential sources of noise must be approached with care. Comparing your
own design with a Linx evaluation board can help to determine if and at
what level design-specific interference is present.
External interference can manifest itself in a variety of ways. Low-level
interference produces noise and hashing on the output and reduces the
link’s overall range.
High-level interference is caused by nearby products sharing the same
frequency or from near-band high-power devices. It can even come from
your own products if more than one transmitter is active in the same area.
It is important to remember that only one transmitter at a time can occupy
a frequency, regardless of the coding of the transmitted signal. This type of
interference is less common than those mentioned previously, but in severe
cases it can prevent all useful function of the affected device.
Although technically not interference, multipath is also a factor to be
understood. Multipath is a term used to refer to the signal cancellation
effects that occur when RF waves arrive at the receiver in different phase
relationships. This effect is a particularly significant factor in interior
environments where objects provide many different signal reflection paths.
Multipath cancellation results in lowered signal levels at the receiver and
shorter useful distances for the link.
– 16 –
Pad Layout
The pad layout diagram in Figure 15 is designed to facilitate both hand and
automated assembly.
0.065"
0.340"
0.070"
0.100"
Figure 15: Recommended PCB Layout
Board Layout Guidelines
The module’s design makes integration straightforward; however, it
is still critical to exercise care in PCB layout. Failure to observe good
layout techniques can result in a significant degradation of the module’s
performance. A primary layout goal is to maintain a characteristic
50-ohm impedance throughout the path from the antenna to the module.
Grounding, filtering, decoupling, routing and PCB stack-up are also
important considerations for any RF design. The following section provides
some basic design guidelines.
During prototyping, the module should be soldered to a properly laid-out
circuit board. The use of prototyping or “perf” boards results in poor
performance and is strongly discouraged. Likewise, the use of sockets
can have a negative impact on the performance of the module and is
discouraged.
The module should, as much as reasonably possible, be isolated from
other components on your PCB, especially high-frequency circuitry such as
crystal oscillators, switching power supplies, and high-speed bus lines.
When possible, separate RF and digital circuits into different PCB regions.
– 17 –
11 Page | ||
| Páginas | Total 17 Páginas | |
| PDF Descargar | [ Datasheet TXM-433-LR.PDF ] | |
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