CYWUSB6934-48LFXC Cypress Semiconductor Corp, CYWUSB6934-48LFXC Datasheet - Page 3
CYWUSB6934-48LFXC
Manufacturer Part Number
CYWUSB6934-48LFXC
Description
IC USB WIRELESS 2.4GHZ 48VQFN
Manufacturer
Cypress Semiconductor Corp
Type
Transceiverr
Datasheet
1.CYWUSB6934-48LTXC.pdf
(33 pages)
Specifications of CYWUSB6934-48LFXC
Package / Case
48-VQFN Exposed Pad, 48-HVQFN, 48-SQFN, 48-DHVQFN
Frequency
2.4GHz
Data Rate - Maximum
62.5kbps
Modulation Or Protocol
DSSS, GFSK
Applications
HID, PC, Peripheral Gaming Devices
Power - Output
0dBm
Sensitivity
-90dBm
Voltage - Supply
2.7 V ~ 3.6 V
Current - Receiving
57.7mA
Current - Transmitting
69.1mA
Data Interface
PCB, Surface Mount
Antenna Connector
PCB, Surface Mount
Operating Temperature
0°C ~ 70°C
Operating Frequency
2483 MHz
Operating Supply Voltage
3 V
Maximum Operating Temperature
+ 70 C
Minimum Operating Temperature
0 C
Mounting Style
SMD/SMT
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Memory Size
-
Lead Free Status / RoHS Status
Lead free / RoHS Compliant, Lead free / RoHS Compliant
Other names
428-1624
Available stocks
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Quantity
Price
Company:
Part Number:
CYWUSB6934-48LFXC
Manufacturer:
CY
Quantity:
9 194
Part Number:
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Manufacturer:
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20 000
Application Interfaces
Both ICs have a fully synchronous SPI slave interface for
connectivity to the application MCU. Configuration and
byte-oriented data transfer can be performed over this interface.
An interrupt is provided to trigger real time events.
An optional SERDES Bypass mode (DIO) is provided for appli-
cations that require a synchronous serial bit-oriented data path.
This interface is for data only.
Clocking and Power Management
A 13-MHz crystal (±50 ppm or better) is directly connected to
X13IN and X13 without the need for external capacitors. Both ICs
have a programmable trim capability for adjusting the on-chip
load capacitance supplied to the crystal. The Radio Frequency
(RF) circuitry has on-chip decoupling capacitors. Both devices
are powered from a 2.7V to 3.6V DC supply. Both devices can
be shutdown to a fully static state using the PD pin.
Below are the requirements for the crystal to be directly
connected to X13IN and X13:
■
■
■
■
■
■
■
Receive Signal Strength Indicator (RSSI)
The RSSI register (Reg 0x22) (applies only to the CYWUSB6934
IC) returns the relative signal strength of the ON-channel signal
power and can be used to:
The internal RSSI voltage is sampled through a 5-bit
analog-to-digital converter (ADC). A state machine controls the
conversion process. Under normal conditions, the RSSI state
machine initiates a conversion when an ON-channel carrier is
detected and remains above the noise floor for over 50 μs. The
conversion produces a 5-bit value in the RSSI register (Reg
0x22, bits 4:0) along with a valid bit, RSSI register (Reg 0x22, bit
5). The state machine then remains in HALT mode and does not
reset for a new conversion until the receive mode is toggled off
and on. Once a connection has been established, the RSSI
register can be read to determine the relative connection quality
of the channel. A RSSI register value lower than 10 indicates that
the received signal strength is low, a value greater than 28
indicates a strong signal level.
Document 38-16007 Rev. *J
1. Determine the connection quality
2. Determine the value of the noise floor
3. Check for a quiet channel before transmitting.
Nominal Frequency: 13 MHz
Operating Mode: Fundamental Mode
Resonance Mode: Parallel Resonant
Frequency Stability:
Series Resistance:
Load Capacitance: 10 pF
Drive Level: 10 uW–100 uW
≤
±
100 ohms
50 ppm
To check for a quiet channel before transmitting, first set up
receive mode properly and read the RSSI register (Reg 0x22). If
the valid bit is zero, then force the Carrier Detect register (Reg
0x2F, bit 7=1) to initiate an ADC conversion. Then, wait greater
than 50 μs and read the RSSI register again. Next, clear the
Carrier Detect Register (Reg 0x2F, bit 7=0) and turn the receiver
OFF. Measuring the noise floor of a quiet channel is inherently a
'noisy' process so, for best results, this procedure should be
repeated several times (~20) to compute an average noise floor
level. A RSSI register value of 0-10 indicates a channel that is
relatively quiet. A RSSI register value greater than 10 indicates
the channel is probably being used. A RSSI register value
greater than 28 indicates the presence of a strong signal.
Application Interfaces
SPI Interface
The CYWUSB6932/CYWUSB6934 ICs have a four-wire SPI
communication interface between an application MCU and one
or more slave devices. The SPI interface supports single-byte
and multi-byte serial transfers. The four-wire SPI communica-
tions interface consists of Master Out-Slave In (MOSI), Master
In-Slave Out (MISO), Serial Clock (SCK), and Slave Select (SS).
The SPI receives SCK from an application MCU on the SCK pin.
Data from the application MCU is shifted in on the MOSI pin.
Data to the application MCU is shifted out on the MISO pin. The
active-low Slave Select (SS) pin must be asserted to initiate a
SPI transfer.
The application MCU can initiate a SPI data transfer via a
multi-byte transaction. The first byte is the Command/Address
byte, and the following bytes are the data bytes as shown in
Figure 2
deasserted between bytes. The SPI communications is as
follows:
■
■
■
■
The SPI communications interface has a burst mechanism,
where the command byte can be followed by as many data bytes
as desired. A burst transaction is terminated by deasserting the
slave select (SS = 1). For burst read transactions, the application
MCU must abide by the timing shown in
The SPI communications interface single read and burst read
sequences are shown in
The SPI communications interface single write and burst write
sequences are shown in
Command Direction (bit 7) = “0” Enables SPI read transaction.
A “1” enables SPI write transactions.
Command Increment (bit 6) = “1” Enables SPI auto address
increment. When set, the address field automatically incre-
ments at the end of each data byte in a burst access, otherwise
the same address is accessed.
Six bits of address.
Eight bits of data.
through
Figure
Figure 1
Figure 3
3. The SS signal should not be
and
and
Figure
Figure
CYWUSB6934
CYWUSB6932
Figure
2, respectively.
4, respectively.
12.
Page 3 of 33
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