CYWUSB6932 Datasheet, PDF(9/30 Page) Cypress Semiconductor – WirelessUSB LS 2.4-GHz DSSS Radio SoC

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CYWUSB6932 Datasheet, PDF (9/30 Pages) Cypress Semiconductor – WirelessUSB LS 2.4-GHz DSSS Radio SoC

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CYWUSB6932

CYWUSB6934

Addr: 0x04

Reserved

REG_DATA_RATE

Figure 7-3. Data Rate

Code Width

Default: 0x00

Data Rate

Sample Rate

Bit Name

Description

7:3 Reserved These bits are reserved and should be written with zeroes.

2[3] Code Width The Code Width bit is used to select between 32 chips/bit and 64 chips/bit PN codes.

1 = 32 chips/bit PN codes

0 = 64 chips/bit PN codes

The number of chips/bit used impacts a number of factors such as data throughput, range and robustness to inter-

ference. By choosing a 32 chips/bit PN-code, the data throughput can be doubled or even quadrupled (when double

data rate is set). A 64 chips/bit PN code offers improved range over its 32 chips/bit counterpart as well as more

robustness to interference. By selecting to use a 32 chips/bit PN code a number of other register bits are impacted

and need to be addressed. These are PN Code Select (Reg 0x03, bit 5), Data Rate (Reg 0x04, bit 1), and Sample

Rate (Reg 0x04, bit 0).

1[3] Data Rate

The Data Rate bit allows the user to select Double Data Rate mode of operation which delivers a raw data rate of

62.5kbits/sec.

1 = Double Data Rate - 2 bits per PN code (No odd bit transmissions)

0 = Normal Data Rate - 1 bit per PN code

This bit is applicable only when using 32 chips/bit PN codes which can be selected by setting the Code Width bit (Reg

0x04, bit 2=1). When using Double Data Rate, the raw data throughput is 62.5 kbits/sec because every 32 chips/bit

PN code is interpreted as 2 bits of data. When using this mode a single 64 chips/bit PN code is placed in the PN code

capability. When using Normal Data Rate, the raw data throughput is 32kbits/sec. Additionally, Normal Data Rate

enables the user to potentially correlate data using two differing 32 chips/bit PN codes.

0[3] Sample

Rate

The Sample Rate bit allows the use of the 12x sampling when using 32 chips/bit PN codes and Normal Data Rate.

1 = 12x Oversampling

0 = 6x Oversampling

Using 12x oversampling improves the correlators receive sensitivity. When using 64 chips/bit PN codes or Double

Data Rate this bit is donât care. The only time when 12x oversampling can be selected is when a 32 chips/bit PN code

is being used with Normal Data Rate.

Addr: 0x05

Figure 7-4. Configuration

REG_CONFIG

Reserved

Default: 0x01

IRQ Pin Select

Bit Name

Description

7:2 Reserved

These bits are reserved and should be written with zeroes.

1:0 IRQ Pin Select The Interrupt Request Pin Select bits are used to determine the drive method of the IRQ pin.

11 = Open Source (IRQ asserted = 1, IRQ deasserted = Hi-Z)

10 = Open Drain (IRQ asserted = 0, IRQ deasserted = Hi-Z)

01 = CMOS (IRQ asserted = 1, IRQ deasserted = 0)

00 = CMOS Inverted (IRQasserted = 0, IRQ deasserted = 1)

Note:

3. The following Reg 0x04, bits 2:0 values are not valid:

â¢ 001 â Not Valid

â¢ 010 â Not Valid

â¢ 011 â Not Valid

â¢ 111 â Not Valid.

Document 38-16007 Rev. *G

Page 9 of 30

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