4432-DKDB0 Silicon Laboratories Inc, 4432-DKDB0 Datasheet - Page 18

WiFi / 802.11 Modules & Development Tools Ant. Diversity 4432 Testcard High band

4432-DKDB0

Manufacturer Part Number

4432-DKDB0

Description

WiFi / 802.11 Modules & Development Tools Ant. Diversity 4432 Testcard High band

Manufacturer

Silicon Laboratories Inc

Datasheet

1.SDBC-DK3.pdf (76 pages)

Specifications of 4432-DKDB0

Modulation

GFSK

Operating Voltage

3.3 V

Antenna

SMA

For Use With/related Products

Si4432

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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SDBC-DK3 UG

Consider the following:



The trade offs in radio applications are many and the list above is by no means the only possible scenarios, every

application has its own list of acceptable trade offs and through the use of menu options such as data-rate, packet

length and antenna diversity engineers can learn to best understand what options work for them and their

environments.

7.1.6. Max Packets

So that designers can scientifically qualify the aforementioned trade offs, careful experimentation in applicable

application-like environments is recommended, the 'Max. Packets' menu option allows designers to select the

number of packets used to generate a Packet Error Rate (PER) result.



7.1.6.1. Example—Typical Usage

The designer will arrive at their test site and run a 100 packet test experiment prior to exhaustive testing. If the

results are in accordance with previous tests then the environment is similar to those of the previous occasion. If

there is a substantial difference in the results of a 100 packet test with any previous occasions results then new

environmental factors are playing into tests and these should be recorded as comments so that results from

exhaustive testing is better understood.

<Press the GO button>.

7.1.7. Screen 5: The Ready Screen

The ready screen on the LCD is the final step before starting your experimentation. The ready screen labels the

LEDs 1–4 according to the function they will perform. In this demonstration they are TX, RX, Antenna 1 and

Antenna 2. Note if you have disabled any of the antenna's or are using a none antenna diversity card then the

associated antenna is not represented by the LEDs.

Note: Only one antenna highlighted on the top row and NO-ANTDIV shown in the second line of text.

During the transmission of long packets, there is an increased chance that a disturbance may occur somewhere

along that packet—thus the need to implement good CRC checks.

During the transmission of short packets, there is an increased chance that the entire packet may be lost during

a disturbance—thus the need to implement more retries.

Transmission of long/short packets with a slow data rates have good easily recognizable 1's and 0's but by

comparison to fast data rates have a greater 'on time' and may use more power but retries may be less (in turn

saving power).

Transmission of long/short packets with a fast data rate may have a less 'on time' but retires may be greater,

antenna diversity may help reduce the multipath effects.

A large number of packets (1000–9999) allows for a good averaged result but can take time particularly at low

data rates.

A small number of packets (100) allows for a quick environmental assessment to be made prior to an

exhaustive test.

Figure 21. Non-Antenna Diversity Testcard

Rev. 0.4

4432-DKDB0 Silicon Laboratories Inc, 4432-DKDB0 Datasheet - Page 18

4432-DKDB0

Specifications of 4432-DKDB0

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