Cypress CYWUSB6941-42BAC Wirelessusb ex radio Datasheet

CYWUSB6941
PRELIMINARY
WirelessUSB™ EX Radio
1.0
Features
2.0
The Cypress CYWUSB6941 WirelessUSB™ EX radio transceiver is designed to work with the Cypress CYWUSB6942
WirelessUSB EX baseband controller to provide a complete
WirelessUSB EX solution. The CYWUSB6941 contains a
2.4-GHz radio transceiver, a GFSK modem, and a radio
control interface that communicates with the CYWUSB6942.
Applications
The CYWUSB6941 is targeted for the following Human Input
Device (HID) applications:
• Mice
• Keyboards
• Joysticks/Gamepads.
• Typically requires only eight external components for
ease of implementation and manufacturing
• -6-dBm (typical) transmit power for a transmission
range of up to 10 meters
• -82-dBm (typical) receive sensitivity
• Provides low-power operating modes to conserve
battery life
• 2.7V to 3.6V operation
• 7 x 5 x 1.2 mm 42-pin FBGA package
Block Diagram
FM
D em odulator
LN A
Frequency
Offset
C or rection
BRXD
4.8 GHz
I
Serial
Interface
BDCLK
F/2
Q
BMISO
BMOSI
RFIN
2.4GHz
PLL
BnDEN
Transm itter
U p-C onver t
PA
RFOUT
13M Hz
XTL OSC
TX
Data In
Bias &
Pwr C ntr l
PA
Power
C on tr ol
PA CTL
BTXD
BRCLK
X13IN
X13
X13OUT
BPAEN
BR XEN
BTXEN
BSEN
BXTLEN
BnPWR
Figure 2-1. CYWUSB6941 Block Diagram
Cypress Semiconductor Corporation
Document #: 38-16004 Rev. *A
•
3901 North First Street
•
San Jose, CA 95134
•
408-943-2600
Revised June 10, 2003
PRELIMINARY
CYWUSB6941
TABLE OF CONTENTS
1.0 FEATURES ...................................................................................................................................... 1
2.0 APPLICATIONS ............................................................................................................................... 1
3.0 FUNCTIONAL OVERVIEW .............................................................................................................. 3
3.1 2.4-GHz Radio Transceiver and GFSK Modem .......................................................................... 3
3.2 Clocking ...................................................................................................................................... 3
3.3 Application Examples .................................................................................................................. 4
4.0 PIN DESCRIPTION .......................................................................................................................... 5
5.0 RADIO CONTROL INTERFACE ...................................................................................................... 8
5.1 Radio/Baseband Interface Connections ..................................................................................... 8
6.0 ABSOLUTE MAXIMUM RATINGS .................................................................................................. 9
7.0 OPERATING CONDITIONS ............................................................................................................. 9
8.0 DC CHARACTERISTICS ................................................................................................................. 9
9.0 RADIO SPECIFICATION ............................................................................................................... 10
10.0 AC CHARACTERISTICS .............................................................................................................. 11
10.1 Transmit and Receive Timing Diagrams ............................................................................... 12
11.0 AC Test Loads and Waveforms for Digital Pins ....................................................................... 13
12.0 ORDERING INFORMATION ........................................................................................................ 14
13.0 PACKAGE DESCRIPTION .......................................................................................................... 14
LIST OF FIGURES
Figure 2-1. CYWUSB6941 Block Diagram .............................................................................................. 1
Figure 3-1. CYWUSB6941 Application Example with External Components .......................................... 4
Figure 4-1. CYWUSB6941 42-Ball FBGA Top View................................................................................ 7
Figure 5-1. CYWUSB6941 Radio/Baseband Interface Diagram ............................................................. 8
Figure 10-1. Transmit and Receive Timing Diagram ............................................................................. 12
Figure 12-1. CYWUSB6941 Package Diagram ..................................................................................... 14
LIST OF TABLES
Table 4-1. Pin Description Table for the CYWUSB6941 ........................................................................ 5
Table 8-1. DC Parameters ...................................................................................................................... 8
Table 9-1. Radio Parameters .................................................................................................................. 9
Table 10-1. AC Timing Parameters ...................................................................................................... 10
Table 11-1. Ordering Information .......................................................................................................... 12
Document #: 38-16004 Rev. *A
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PRELIMINARY
3.0
CYWUSB6941
Functional Overview
The Cypress CYWUSB6941 WirelessUSB EX transceiver is designed to work with the Cypress CYWUSB6942 WirelessUSB EX
baseband controller to provide a complete WirelessUSB EX solution. The CYWUSB6941 contains a 2.4-GHz radio transceiver,
a GFSK modem, and a radio control interface that communicates with the CYWUSB6942 WirelessUSB EX baseband. The
CYWUSB6941 also facilitates the development of a complete WirelessUSB EX system with a minimum number of additional
components, typically requiring only eight external components (including crystal) for ease of implementation and manufacturing
(refer to Figure 3-1). Specific features include:
• 2.4-GHz frequency-hopping spread spectrum (FHSS) transceiver
• GFSK modulator/demodulator
• No external transmit/receive switch required
• Minimizes the need for external components
• Closed-loop phase-locked loop (PLL)
• VCO is integrated in the CYWUSB6941
• No external loop circuitry required
• Radio control interface.
3.1
2.4-GHz Radio Transceiver and GFSK Modem
The receiver is a low-IF architecture with fully integrated IF filters to achieve high performance in the presence of interference.
The FM demodulator and fast data slicer are fully integrated.
The hop frequency synthesizer provides the frequency-hopping local oscillator for the transmitter and receiver. The only external
components required are reference crystal, and several capacitors. The RF VCO is fully integrated, requiring no external tank
circuits.
The transmitter uses a DSP-based vector modulator to convert the transmit data to an accurate GFSK-modulated carrier. There
are a variety of DC power control features for transmitter, synthesizer, and receiver functions to optimize the average current drain.
3.2
Clocking
The CYWUSB6941 requires an external 13-MHz crystal with the following characteristics:
• Crystal temperature stability: ± 15 ppm max
• Crystal load capacitance: 10 – 15 pF.
The crystal has to be placed across the X13IN and X13 pins. No extra capacitors are needed.
Document #: 38-16004 Rev. *A
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PRELIMINARY
3.3
Application Examples
3.3.1
Application Example with the CYWUSB6942
CYWUSB6941
Figure 3-1 shows an application example with external components.[1]
V CC1
0.1 µF
V CC3
V CC2
0.1 µ F
0.1µ F
V CC4
0.1µ F
X13IN
V CC1 V CC2 V CC3 V CC4
XTA L
68pF
RFIN
1.5pF
X13
CYWUSB6941
CYWUSB 6942
RFOUT
47pF
12
Radio Control
Interf ac e
BnPWR
BnPWR
GND
Figure 3-1. CYWUSB6941 Application Example with External Components
Note:
1. The matching network components between the RFIN, and RFOUT are chosen based on the usage of a four-layer FR4 PCB (part number PCD-9100). See
application notes for additional details on board layout requirements. See application notes for RF critical design considerations.
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PRELIMINARY
4.0
CYWUSB6941
Pin Description
Table 4-1. Pin Description Table for the CYWUSB6941
Ball
Name
Type Default
Description
E1
RFIN
Input
N/A
Antenna Input. Modulated RF signal received.
F5
RFOUT
Output
N/A
Antenna Output. Modulated RF signal to be transmitted.
RF Pins
Filter/Crystal/Power Control Pins
D7
X13
Input
N/A
Crystal Differential Input. Input for a differential crystal oscillator.
E7
X13IN
Input
N/A
Crystal Differential Input. Input for a differential crystal oscillator.
B7
X13OUT
Output
System Clock. Buffered 13-MHz system clock.
Radio Control Interface (Data Pins)
A5
BTXD
Input
A6
BRXD
Output
Receive Data. Demodulated and sliced digital receive data.
Transmit Data. Transmit data input port.
D5
PACTL
Output
Power Amplifier Control. High is an enable for external power amplifier in the transmit
mode.
Radio Control Interface (Control Pins)
B5
BRCLK
Output
Transmit Clock. 1-MHz clock associated with the transmit data.
C5
BPAEN
Input
Power Amplifier Enable. Enables the PA in transmit mode. Active HIGH.
C6
BRXEN
Input
Receive Circuitry Enable. This signal enables the receive circuitry. Active HIGH.
B6
BTXEN
Input
Transmit Circuitry Enable. This signal enables the transmit circuitry. Active HIGH.
C4
BSEN
Input
Synthesizer Enable. This signal enables the hop synthesizer. Active HIGH.
A2
BnPWR
Input
Power-on Reset. This signal is active LOW. Connects to CYWUSB6942 signal BnPWR
D6
BXTLEN
Input
Crystal Oscillator Enable. This signal enables the crystal oscillator. Active HIGH.
Serial Interface Pins
A3
BMOSI
Input
Input Data. This is the serial data input pin.
B3
BMISO
Output
A4
BDCLK
Input
Output Data. This is the serial data output pin.
Input Clock. This is the serial input clock.
B4
BnDEN
Input
Enable. This signal enables the serial communication.
Power and Ground Pins
B2
VCC1
D1
VCC2
VCC
H
VCC pins for RF and analog baseband signals.
F6
VCC3
E6
VCC4
VCC
H
VCC pin for digital signals.
A1
GND
GND
L
Ground pins.
A7
C2
C3
C7
D2
D3
D4
E2
E3
E4
E5
F1
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PRELIMINARY
CYWUSB6941
Table 4-1. Pin Description Table for the CYWUSB6941 (continued)
Ball
Name
Type Default
F2
GND
GND
L
Description
Ground pins.
F3
F4
F7
Reserved
GND
N/A
Reserved pin. Must be tied to GND.
B1
Reserved
GND
N/A
Reserved pin. Must be tied to GND.
C1
Reserved
GND
N/A
Reserved pin. Must be tied to GND.
1
2
3
4
5
6
7
A
GND
BnPW R
BMOSI
BDCLK
BTXD
BRXD
GND
A
B
Reserved
VCC1
BMISO
BnDEN
BRCLK
BTXEN
X13OUT
B
C
Reserved
GND
GND
BSEN
BPAEN
BRXEN
GND
C
D
VCC2
GND
GND
GND
PACTL
BXTLEN
X13
D
E
RFIN
GND
GND
GND
GND
VCC4
X13IN
E
F
GND
GND
GND
GND
RFOUT
VCC3
Reserved
F
1
2
3
4
5
6
7
Figure 4-1. CYWUSB6941 42-Ball FBGA Top View
Document #: 38-16004 Rev. *A
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PRELIMINARY
5.0
CYWUSB6941
Radio Control Interface
The CYWUSB6941 radio control interface is the communication interface between the CYWUSB6941 transceiver and the
CYWUSB6942 WirelessUSB EX baseband. It consists of a data interface and a control interface for transmitting and receiving
data, and a serial interface for a control interface from the WirelessUSB baseband CYWUSB6941.
There are two subsections of the interface:
• RF data and control path
• Radio control interface (serial).
Nine signals are used in the RF data and control path, four in the serial radio control interface, and one system clock. All of the
signals are unidirectional. Direction is oriented to/from the CYWUSB6941 RF IC.
5.1
Radio / Baseband Interface Connections
D ata Interface
BTXD
BRXD
C ontrol Interface
BRCLK
BTXEN
BRXEN
BPAEN
WirelessU SB
B aseband
C YWU SB 6942
BSEN
BXTLEN
BnPW R
WirelessU SB
R adio IC
C YWU SB 6941
Serial Interface
BDCLK
BnDEN
BMOSI
BMISO
Master C lock
BCLK13M
Figure 5-1. CYWUSB6941 Radio/Baseband Interface Diagram
Document #: 38-16004 Rev. *A
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PRELIMINARY
6.0
CYWUSB6941
Absolute Maximum Ratings
Storage Temperature ............................................................. ..............................................................................–65°C to +150°C
Ambient Temperature with Power Applied ............................. ....................................................................................0°C to +70°C
Supply Voltage on VCC relative to VSS ............................................ ................................................................................. –0.3V to +3.9V
DC Input Voltage.................................................................... ..........................................................................–0.3V to VCC +0.3V
DC Voltage applied to Outputs
in High-Z State ....................................................................... ..........................................................................–0.3V to VCC +0.3V
Static Discharge Voltage (Digital)[2 ...................................................] ......................................................................................... > 2000 V
Static Discharge Voltage (RF)[2]......................................................... ............................................................................................ > 500 V
Latch-up Current .................................................................... .......................................................................... +200 mA, –200 mA
7.0
Operating Conditions
VCC (Supply Voltage) ............................................................. ..................................................................................... 2.7V to 3.6V
TA (Ambient Temperature Under Bias) .................................. ....................................................................................0°C to +70°C
Ground Voltage ...................................................................... .................................................................................................... 0V
FOSC (Oscillator or Crystal Frequency) .................................. ............................................................................ 13 MHz ± 20 ppm
8.0
DC Characteristics (Over the Operating Range)
Table 8-1. DC Parameters
Parameter
Description
Conditions
Min.
2.4
VOH
Output High Voltage
At IOH = –2.0 mA
VOL
Output Low Voltage
At IOL = 2.0 mA
Typ.
Max.
Unit
V
0.4
V
VIH
Input High Voltage
2.0
VCC
V
VIL
Input Low Voltage
–0.3
0.8
V
–1
+1
µA
8
pF
IIL
Input Leakage Current
CIN
Pin Input Capacitance (except X13, X13IN, and
RFIN)
0 < VIN < VCC
ISleep
Current consumption during sleep mode
BXTLEN = 0
1
10
µA
ICC (BXTLEN)
Current consumption when crystal oscillator is
enabled and stable
BnPWR = 1
BXTLEN =1
4
6
mA
ICC (BSEN)
Current consumption when hop frequency
synthesizer is enabled and stable
BXTLEN = 1
BSEN =1
30
40
mA
ICC (BRXEN)
Current consumption when receiver circuitry is BXTLEN = 1
enabled and stable
BSEN = 1
BRXEN=1
62
85
mA
ICC (BTXEN)
Current consumption when transmit circuitry is BXTLEN = 1
enabled and stable
BSEN = 1
BTXEN =1
45
70
mA
ICC (BPAEN)
Current consumption when transmit circuitry and BXTLEN = 1
PA are enabled and stable
BSEN = 1
BTXEN = 1
BPAEN = 1
70
85
mA
Note:
2. Rating measured using the Human Body Model (HBM).
Document #: 38-16004 Rev. *A
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PRELIMINARY
9.0
CYWUSB6941
Radio Specification
Table 9-1. Radio Parameters
Parameter
Description
Conditions
RF Frequency Range
Min.
Typ.
2.402
Max.
Unit
2.480
GHz
Radio Receiver (T = 25°C, VCC = 3.3V)[3]
Sensitivity
BER < 10–3
Maximum Received Signal
BER < 10–3
Interference Performance
BER < 10–3
-82
–38
Co-channel Interference rejection Carrier-to-Interference (C/I) C = –60 dBm
–74
dBm
–33
dBm
11
dB
Adjacent (1 MHz) channel selectivity C/I 1 MHz
C = –60 dBm
3
dB
Adjacent (2 MHz) channel selectivity C/I 2 MHz
C = –60 dBm
–25
dB
Adjacent (> 3 MHz) channel selectivity C/I > 3 MHz
C = –67 dBm
–35
dB
Image Frequency Interference, C/I Image (+4 MHz)
C = –67 dBm
–20
dB
Adjacent (1 MHz) interference to in-band image frequency, C/I C = –67 dBm
image ±1 MHz (+3 MHz and +5 MHz)
–30
dB
Out-of-Band Blocking
Interference Signal Frequency
BER < 10–3
30 MHz – 2399 MHz[4]
C = –67 dBm
–30
dBm
2498 MHz – 12.75 GHz
C = –67 dBm
–20
dBm
Intermodulation
C = –64 dBm
∆f = 5,10 MHz
–39
dBm
Spurious Emission
30 MHz – 1 GHz
–57
dBm
1 GHz – 12.75 GHz
–47
dBm
Radio Transmitter (T = 25°C, VCC = 3.3V, PA5)
Maximum RF Transmit Power
Pwr setting = PA5
RF Power Control Range
RF Power Range Control Step Size
-6
dBm
PA0-PA5
23
dB
6 steps, monotonic.
4.6
dB
Frequency Deviation
90175
kHz
Zero Crossing Error
±125
ns
Occupied Bandwidth
Initial Frequency Offset
–11
±500
10-kHz resolution
bandwidth, –20 dBc
±100
kHz
kHz
In-band Spurious
Second Channel Power (±2 MHz)
–20
dBm
> Third Channel Power (>3 MHz)
–40
dBm
–57
dBm
–30
dBm
Non-harmonically Related Spurious
30 MHz – 12.75 GHz
Harmonic Spurious
2nd Harmonic through 5th Harmonic
Notes:
3. BER PRBS9 sequence
4. Subharmonics of receive frequency excluded.
Document #: 38-16004 Rev. *A
Page 9 of 14
PRELIMINARY
10.0
CYWUSB6941
AC Characteristics (over the operating range)
Table 10-1. AC Timing Parameters
Name
Description
Min. Typ. Max. Unit
tR/F
Rise and Fall Times on output pins (see AC test loads section 11.0)
tBPWR
Pulse width for BnPWR for initiating a reset
3
20
tBRCLK
BRCLK period (duty cycle = 40/60)
tBTXDSU
Set-up time, data stable (on BTXD) before positive edge on BRCLK
tBTXDHLD
Hold time, data stable (on BTXD) after positive edge on BRCLK
tBRXDPD
Propagation delay of data from RFIN to serial data at BRXD
tBXTLEN
Time from BXTLEN being driven HIGH to crystal oscillator becoming stable
10
ms
tBSEN
Time from BSEN asserted to hop frequency synthesizer stable
250
µs
tBRXEN
Time from BRXEN asserted to receiver circuitry stable for data reception
35
µs
tBPAOFF
Time from last bit transmitted from the baseband to PA off
4
µs
tBTXEN
Time from BTXEN to BPAEN
4
µs
100
ns
ns
µs
1
250
ns
0
ns
µs
3
Serial Interface Timing Parameters
tBDCLK
BDCLK period
154
η
Duty cycle of BDCLK
40
tHLD
Hold time, data stable after positive edge on BDCLK
20
ns
tSU
Set-up time, data stable before positive edge on BDCLK
20
ns
Document #: 38-16004 Rev. *A
ns
60
%
Page 10 of 14
PRELIMINARY
10.1
CYWUSB6941
Transmit and Receive Timing Diagram
BXTLEN
tB X TLE N
BSEN
TX M ODE
tB S E N
BTXEN
BRCLK
tB P A OFF
t B TX E N
BPA EN
BTXD
t CA RRIE R
RFOUT
RX M ODE
BRXEN
tB RX E N
RFIN
t B RX DP B
BRXD
tC AR R IER = 10 µ s m inim um
Figure 10-1. Transmit and Receive Timing Diagram
Document #: 38-16004 Rev. *A
Page 11 of 14
PRELIMINARY
11.0
CYWUSB6941
AC/DC Test Loads and Waveforms for Digital Pins
AC Test Loads
OUTPUT
OUTPUT
5 pF
30 pF
INCLUDING
JIG AND
SCOPE
INCLUDING
JIG AND
SCOPE
Max
Typical
DC Test Load
R1
VCC
OUTPUT
R2
THÉVENIN EQUIVALENT
RTH
VTH
OUTPUT
Equivalent to:
Parameter
R1
R2
RTH
VTH
VCC
12.0
ALL INPUT PULSES
VCC
GND
Unit
Ω
Ω
Ω
V
V
1071
937
500
1.4
3.00
90%
10%
Rise time: 1 V/ns
90%
10%
Fall time: 1 V/ns
Ordering Information[5]
Table 12-1. Ordering Information
Part Number
Package Name
CYWUSB6941-42BAC
42FBGA
Package Type
42-ball Fine Ball Grid Array (7 x 5 x 1.2 mm)
Operating Range
Commercial
Note:
5. Companion part CYWUSB6942 is required for proper operation.
Document #: 38-16004 Rev. *A
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PRELIMINARY
13.0
CYWUSB6941
Package Description
The CYWUSB6941 comes in a 42-ball FBGA package with package size of 7 x 5 x 1.2 mm and a ball pitch of 0.75 mm. All
dimensions are in millimeters (mm).
42-ball FBGA (7.0 x 5.0 x 1.2 mm) BA42
51-85139-*C
Figure 13-1. CYWUSB6941 Package Diagram
WirelessUSB™ EX is a trademark of Cypress Semiconductor. All product and company names mentioned in this document are
the trademarks of their respective holders.
Document #: 38-16004 Rev. *A
Page 13 of 14
© Cypress Semiconductor Corporation, 2003. The information contained herein is subject to change without notice. Cypress Semiconductor Corporation assumes no responsibility for the use
of any circuitry other than circuitry embodied in a Cypress Semiconductor product. Nor does it convey or imply any license under patent or other rights. Cypress Semiconductor does not authorize
its products for use as critical components in life-support systems where a malfunction or failure may reasonably be expected to result in significant injury to the user. The inclusion of Cypress
Semiconductor products in life-support systems application implies that the manufacturer assumes all risk of such use and in doing so indemnifies Cypress Semiconductor against all charges.
PRELIMINARY
CYWUSB6941
Document History Page
Document Title:CYWUSB6941 WirelessUSB™ EX Radio
Document Number: 38-16004
REV.
ECN NO.
Issue
Date
Orig. of
Change
Description of Change
**
122944
02/26/03
LXA
New Data Sheet
*A
125914
06/16/03
KKU
Updates to tables, timing and signals.
Document #: 38-16004 Rev. *A
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