cyrf6936 Cypress Semiconductor Corporation., cyrf6936 Datasheet - Page 3
cyrf6936
Manufacturer Part Number
cyrf6936
Description
Wirelessusb Lp 2.4 Ghz Radio Soc
Manufacturer
Cypress Semiconductor Corporation.
Datasheet
1.CYRF6936.pdf
(40 pages)
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Document #: 38-16015 Rev. *G
Functional Overview
The CYRF6936 IC provides a complete WirelessUSB SPI to
antenna wireless MODEMs. The SoC is designed to
implement wireless device links operating in the worldwide
2.4 GHz ISM frequency band. It is intended for systems
compliant with worldwide regulations covered by ETSI EN 301
489-1 V1.41, ETSI EN 300 328-1 V1.3.1 (Europe), FCC CFR
47 Part 15 (USA and Industry Canada) and TELEC
ARIB_T66_March, 2003 (Japan).
The SoC contains a 2.4 GHz, 1 Mbps GFSK radio transceiver,
packet data buffering, packet framer, DSSS baseband
controller, Received Signal Strength Indication (RSSI), and
SPI interface for data transfer and device configuration.
The radio supports 98 discrete 1 MHz channels (regulations
may limit the use of some of these channels in certain jurisdic-
tions).
The baseband performs DSSS spreading/despreading, Start
of Packet (SOP), End of Packet (EOP) detection, and CRC16
generation and checking. The baseband may also be
configured to automatically transmit Acknowledge (ACK)
handshake packets whenever a valid packet is received.
When in receive mode, with packet framing enabled, the
device is always ready to receive data transmitted at any of the
supported bit rates, enabling the implementation of mixed-rate
systems in which different devices use different data rates.
This also enables the implementation of dynamic data rate
systems that use high data rates at shorter distances or in a
low-moderate interference environment or both, and change
to lower data rates at longer distances or in high interference
environments or both.
In addition, the CYRF6936 IC has a Power Management Unit
(PMU), which allows direct connection of the device to any
battery voltage in the range 1.8V to 3.6V. The PMU conditions
the battery voltage to provide the supply voltages required by
the device, and may supply external devices.
Data Transmission Modes
The SoC supports four different data transmission modes:
• In GFSK mode, data is transmitted at 1 Mbps, without any
• In 8DR mode, eight bits are encoded in each derived code
• In DDR mode, two bits are encoded in each derived code
• In SDR mode, one bit is encoded in each derived code
DSSS.
symbol transmitted.
symbol transmitted. (As in the CYWUSB6934 DDR mode).
symbol transmitted. (As in the CYWUSB6934 standard
modes.)
P re a m b le
n x 1 6 u s
P
1 s t F ra m in g
S y m b o l*
S O P 1
2 n d F ra m in g
S y m b o l*
S O P 2
L e n g th
P a c k e t
1 B y te
P e rio d
le n g th
Figure 2. Example Packet Format
P a y lo a d D a ta
Both 64 chip and 32 chip Pseudo Noise (PN) codes are
supported. The four data transmission modes apply to the data
after the SOP. In particular the length, data, and CRC16 are all
sent in the same mode. In general, lower data rates reduce
packet error rate in any given environment.
Link Layer Modes
The CYRF6936 IC device supports the following data packet
framing features:
SOP – Packets begin with a two-symbol Start of Packet
marker. This is required in GFSK and 8DR modes, but is
optional in DDR mode and is not supported in SDR mode; if
framing is disabled then an SOP event is inferred whenever
two
SOP_CODE_ADR code used for the SOP is different from that
used for the “body” of the packet, and if desired may be a
different length. SOP must be configured to be the same
length on both sides of the link.
Length – There are two options for detecting the end of a
packet. If SOP is enabled, then the length field should be
enabled. GFSK and 8DR must enable the length field. This is
the first eight bits after the SOP symbol, and is transmitted at
the payload data rate. When the length field is enabled, an End
of Packet condition is inferred after reception of the number of
bytes defined in the length field, plus two bytes for the CRC16
(when enabled—see the following paragraph). The alternative
to using the length field is to infer an EOP condition from a
configurable number of successive noncorrelations; this
option is not available in GFSK mode and is only recom-
mended when using SDR mode.
CRC16 – The device may be configured to append a 16 bit
CRC16 to each packet. The CRC16 uses the USB CRC
polynomial with the added programmability of the seed. If
enabled, the receiver verifies the calculated CRC16 for the
payload data against the received value in the CRC16 field.
The seed value for the CRC16 calculation is configurable, and
the CRC16 transmitted may be calculated using either the
loaded seed value or a zero seed; the received data CRC16
is checked against both the configured and zero CRC16
seeds.
CRC16 detects the following errors:
Figure 2
lengths fields enabled, and
standard ACK packet.
• Any one bit in error
• Any two bits in error (no matter how far apart, which column,
• Any odd number of bits in error (no matter where they are)
• An error burst as wide as the checksum itself
and so on)
successive
shows an example packet with SOP, CRC16 and
correlations
Figure 3 on page 4
are
*N o te :3 2 o r 6 4 u s
CYRF6936
C R C 1 6
detected.
Page 3 of 40
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