SEMTECH XE1209

XE1209
Ultra Low Power CMOS Transceiver
XE1209
30 – 70 kH Ultra Low Power CMOS Transceiver
GENERAL DESCRIPTION
The XE1209 is a CMOS Ultra Low-Power
transceiver for short-range low frequency RF data
communications system. It uses 2-level Continuous
Phase FSK modulation. The receiver section
includes the preamplifier, the down-converter, and
the channel filters, the demodulator and the bit
synchronizer, which delivers synchronized data at
the output. The transmitter section is composed of a
Direct Digital Synthesizer (DDS), and the power
amplifier generating a square-wave output current.
The XE1209 has carrier detector to detect the
presence of a signal at the carrier frequency. The
local clock is based on a 32kHz crystal oscillator and
a PLL to generate the required Local oscillator (LO)
frequency. The XE1209 has a simple interface with
an external microcontroller.
KEY FEATURES
•
•
•
•
•
•
Single chip transceiver
Low cost
Low external component count
Ultra Low Power
Stand-by mode
Carrier detection mode
Low-power receiver mode
Unlicensed frequency band
Short range applications; 1 to 3 meters
APPLICATIONS
• Remote control
• Short Range Wireless data
• Access control
ORDERING INFORMATION
Part number
XE1209C012TRLF
Rev 1 August 2005
Temperature
range
-10°C to
+60°
Package
SO-20
RoHS compliant
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XE1209
Ultra Low Power CMOS Transceiver
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PIN DESCRIPTION
Pin #
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
2
Name
TEST
VSS
QIN
VDDA
QOUT
VSSA
IREF
VREF
SUPTEST
RE
INA
INB
VSSPA
PAOUT
VDD
DCLK
DATA
DE
SD
SC
Description
Test pin
Ground for digital
Xtal pin or input for external clock
Supply voltage for analog
Xtal pin
Ground for analog
Iref node for external resistance
Vref node for external capacitance
Test pin
Receiver enable
RF input signal
RF input signal
Ground for RF power amplifier
RF power amplifier output
Supply voltage for digital
Received data clock output
Input/output bit stream or output of the carrier detector
Data enable for 3-wire communication
Data input for 3-wire communication
Clock input for 3-wire communication
TYPICAL APPLICATION
The product is to be used in a system for low frequency RF data communications. The transmission is made with 2level CPFSK modulation. The modulated signal has a carrier frequency fc and a deviation frequency ∆f; the coding of
the data is the following:
fRFin = fc + ∆f ≡ “1”
fRFin = fc - ∆f ≡ “0”.
above shows the structure of the transceiver and the external components required by the application. A 3-wire
bus allows the product to receive configuration data from a microcontroller. Note: pin TEST remains unconnected.
2.1 TYPICAL EXTERNAL COMPONENTS
Besides the components needed for the RF communication itself, the following external components are required:
Name
Cvdd
Cvref
Riref
Xtal
Type
Capacitor
Capacitor
Resistance
Crystal
Pins to be connected
VDD - VSS
VREF - VSS
IREF - VSS
QIN - QOUT
Value
100 nF
47 nF
280 kΩ
32.768 kHz
Tolerance
± 10 %
± 10 %
±1%
± 20 ppm
Max. Temp. variation
± 5 % over -10 °C to 60 °C
± 5 % over -10 °C to 60 °C
± 100 ppm/K
- 50 ppm over -10 to 60 °C
The reference of the crystal used for Xtal is the following:
“DS26 watch crystal” from Micro Crystal Switzerland
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GENERAL FUNCTIONAL DESCRIPTION
The XE1209 is composed of 6 main functional blocks:
Receiver
The receiver channel converts a 2-level CPFSK modulated signal into a bit stream. It is composed of the following
blocks: preamplifier, down-converters (0-IF architecture), channel filters, limiters, demodulator, and bit
synchronizer.
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XE1209
Ultra Low Power CMOS Transceiver
Transmitter
The transmitter performs the modulation of an input bit-stream. The main parts of this block are a DDS (Direct
Digital Synthesizer), generating a digital signal with a modulated period, and a power amplifier generating a squarewave output current controlled by the output of the DDS.
Carrier detector
The function of this block is to detect the presence of a signal at the carrier frequency fc.
Clock generator
The clock generator is composed of a quartz oscillator generating the reference signal at 32.768 kHz, and a PLL
(Phase Locked Loop), whose function is to deliver a signal at a frequency which is a multiple of the oscillator
output; the multiplying factor is programmable on two values.
Service block
This block provides the whole circuit with the required voltage references and current sources.
Digital part
The digital part has two main functions:
• implement the 3-wire interface for the communication with the external microcontroller.
• generate all the internal signals according to the selected mode of operation and the content of the configuration
register
The product has four operating modes:
• a standby mode (M1), where all the blocks are powered off (in this mode, the oscillator can be either on or off
according to the value of a bit (called OSC) stored in the configuration register),
• a carrier detector mode (M2), where only the carrier detector is active,
• a transmitter mode (M3), where the transmitter is powered on,
• A receiver mode (M4), where the receiver is powered on.
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XE1209
Ultra Low Power CMOS Transceiver
The RE input and the bit TR in the configuration register determine the mode setting.
The Table 1 gives the status of the main blocks in each mode.
Receiver
Transmitter
Carrier
detector
Clock
generator
Service block
Digital part
Osc
PLL
M1
standby
off
off
off
M2
carrier detection
off
off
ON
M3
Tx
off
ON
off
M4
Rx
ON
off
off
ON/off
off
off
ON
ON / off
off
ON
ON
ON / off
ON
ON
ON
ON / off
ON
ON
ON
Table 1 Mode selection
When the oscillator is off (bit OSC=0), an external clock is applied on the pin QIN.
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ABSOLUTE MAXIMUM
CONDITIONS
RATINGS,
OPERATING
RANGES
AND
EXTERNAL
Symb
STO_TR
Parameters
Conditions
Min
Typ
Max
Unit
Storage temperature
-40
+85
°C
range
TR
Operating temperature
-10
+25
+60
°C
range
VDD
Operating supply
2.0
2.6
3.2
V
voltage
PLL reference
External oscillator,
FREF_EXT
32.735 32.768
32.800
kHz
frequency
VDD=2.6 V, temp=25 °C
CL_CK
External capacitate
Full range of supply and
5
pF
load on the pin CLK
temperature
IL_CK
External leakage
Full range of supply and
50
nA
current on the pin CLK temperature
RP_OSC
Parasitic resistance
Full range of supply and
20
MΩ
between the pins QIN,
temperature
QOUT and any other
ASIC pin
CP_OSC
Parasitic capacitance
Full range of supply and
0.5
pF
between the pins QIN,
temperature
QOUT and any other
ASIC pin
Stresses above those listed in this clause may cause permanent device failure. Exposure to absolute maximum
ratings for extended periods may affect device reliability.
Electrostatic discharges:
• The device withstands 2000 Volts Standardized Human Body Model ESD pulses when tested according to
MIL883C method 3015.5 (pin combination 2).
Latch-up:
• Static latch-up protection level is 30mA at 25 C
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XE1209
Ultra Low Power CMOS Transceiver
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ELECTRICAL SPECIFICATIONS
Electrical specifications are defined for VDD=2.6 V, Temp=25 °C, fc=36.86 kHz, and a data rate of 1820 bit/s, unless
otherwise specified.
Symb
Parameters
Conditions
Min
Typ
Max
Unit
IDDS1
Standby current
Oscillator stopped
-
0.15
1
µA
IDDS2
Standby current
Oscillator
active,
VDD=3V, Temp= -10 to
+60°C, unloaded
-
1
2
µA
IDD1
Supply current in carrier
detection mode (M2)
Temp = -10 to +60 °C
-
95
120
µA
IDD2
Supply current in receiver
mode (M4)
Temp = -10 to +60 °C
-
200
300
µA
ISINK
Sink current transmitter
mode (peak value)
Load = resistance of 15
ohms connected between
VDD and pin PAOUT,
programmable
through
the 3-wire bus
82
110
138
mA
45
60
75
mA
23
30
37
mA
5.65
7.5
9.35
mA
2.60
3.5
4.40
mA
1.35
1.80
2.25
mA
-
32.768
-
kHz
588.65
589.82
591.00
kHz
719.45
720.90
722.35
kHz
500
1000
-
kΩ
-
25
-
pF
200
70
-
µVp
-
-
15
mV
FREF
PLL reference frequency
FR
PLL frequency
RIN
RF differential input DC
resistance
CIN
RF differential input
capacitance
RFS
RF sensitivity
Programmable via 3-wire
bus
Rsource=100Ω
BER=10-4
MAXIN
Maximum RF effective
input signal
FC
Transmission carrier
frequency
Without
signal
any
parasitic
Adjacent channel
rejection at f = 30.6 kHz
At RFSmin
Adjacent channel
rejection at f = 110.58 kHz
At RFSmin
CMRR
DC
DC Common mode
rejection ratio
At RFSmin
BW
Receiver -3dB Bandwidth
FC=36.86 kHz, DSB
DR
Data rate
FDEV
Frequency deviation
FC=36.86 kHz
PDL
Carrier detector level
3 rising edges measured
at output in a 900us time
window
ATT
ATT3
-
36.86
-
kHz
-
45.05
-
kHz
11
23
-
dBc
-1
3
-
dBc
30
-
-
dB
-
5000
-
Hz
-
1820
-
bit/s
-
1872
-
Hz
140
200
260
µVp
400
500
600
µVp
-4
Rsource=100Ω,BER=10
-4
Rsource=100Ω,BER=10
-4
Rsource=100Ω,BER=10
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XE1209
Ultra Low Power CMOS Transceiver
Symb
Parameters
Conditions
Min
Typ
Max
Unit
-
1.6
2.5
ms
0.2
2
s
RAC
Receiver Activation time
from
carrier-detector
mode and with oscillator
running
XOAC
Xtal oscillator activation
time
at temp =-10 to +60°C
LL
Logical low level
VSS
-
0.2*VDD
V
HL
Logical high level
0.8*VDD
-
VDD
V
6
INPUT/OUTPUT RF SIGNALS
6.1 TRANSMIT MODE
The transmitter is composed of a DDS and a power amplifier. The DDS is a 12-bits counter, which is incremented by
256+13 when the input data is 1 and by 256-13 when the input data is 0. This way, the frequency deviation is equal
to:
∆f =
13 ⋅ N ⋅ FREF
,
2 12
Where N is the multiplying factor of the PLL, and FREF the frequency of the reference clock. With N=18 and
FREF=32.768 kHz, the expression gives ∆f=1872 Hz.
The power amplifier delivers a square wave current whose amplitude is programmable (see the configuration register
section below). The figure below shows the shapes of the signals when, as an example, ISINK=110 mA. The
transmitter processes the input data in real time without any additional sampling or filtering, which means that the
data rate does not depend on the XE1209.
DDS output
PA sink current
110 mA
ISINK
0 mA
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XE1209
Ultra Low Power CMOS Transceiver
6.2 RECEIVE MODE
The data available at receiver output are valid between 20% and 60% of the data period (1/DR) after the rising edge
of the clock (DCLK) as shown in figure below. The received data rate must be 1820 bit/s +/- 2 % for proper bit
synchronizer operation. In addition, the bit synchronizer needs to see at least one transition (from “1” to “0” or from
“0” to “1”) every 8 bits present at its input.
60% of 1/DR
20% of 1/DR
1/DR
DATA
DCLK
At the beginning of the reception, the bit synchronizer needs to receive a preamble which is a sequence of 16 “0”
and “1” bit sent alternatively.
6.3 CARRIER DETECTION MODE
The Carrier Detection mode is active when the TR bit in the configuration register is 0 and the RE input pin is 1. The
signal present at RF inputs is amplified and compared to a voltage threshold. When a RF signal is present at the
input, the comparator output is a square wave at a frequency equal to the frequency of the RF signal. This signal is
fed into a 3-bit counter, whose output is directly available on the DATA pin. In this case, the DATA signal is a square
wave whose frequency is 1/8 of the RF carrier frequency.
~ 4.8 ms
RE
(TR=0)
RFIN
(shown as
square wave)
DATA
The carrier detector set-up time (after TR bit set to 0 and RE input set to 1) is 4.85ms when the carrier frequency is
36.86 kHz. In the applications where the carrier detector is turned on for a relative long period (tens to hundreds of
ms), it is recommended to reset the block with a short transition to stand-by mode (RE=0).
The timing diagram of the carrier detection is shown below when a RF signal is present at input and the function is
programmed.
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XE1209
Ultra Low Power CMOS Transceiver
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PROGRAMMING / DATA INTERFACE
Programming the XE1209 is performed through the 3-wire interface SC, SD, DE, as shown below.
The enable signal DE goes low at the same time as the 8th falling edge of SC (that is, with a maximum delay
between each other of 100 ns). From the rising edge of DE, the XE1209 will sample the data present on SD at the
first 8 falling edges of SC, whatever is the following sequence on SC and SD. For a proper data transfer, the data on
SD must be stable for 5 microseconds before and after each falling edge on SC.
The values on SC, SD and DE (as well as RE) must be kept constant (either at VDD or VSS) during all the time
where the XE1209 has to be effective in modes M2, M3 and M4.
SC
SD
R0
R1
R2
R3
R4
R5
R6
R7
DE
7.1 CONFIGURATION REGISTER
The content of the configuration register
received data during the 3-wire communication.
is
described
below.
The
bit
R0
is
R7
R6
R5
R4
R3
R2
R1
R0
OSC
TES T
SENS
P2
P1
P0
TR
FC
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first
XE1209
Ultra Low Power CMOS Transceiver
Name
Description
Convention
0
FC
TR
Carrier frequency
Transmission flag
P0
P1
P2
SENS
TEST
OSC
Power level
Power level
Power level
Carrier detector threshold
Test flag
Oscillator flag
36.86 kHz
Mode M1 (RE=0)
Mode M2 (RE=1)
LSB
(see Table 3)
MSB
200 µV
Normal mode
External oscillator
1
45.05 kHz
Mode M3 (RE=0)
Mode M4 (RE=1)
500 µV
Test mode
Internal oscillator
Table 2 Configuration register
Correspondence between the word {P2 P1 P0} and the current sinked by the power amplifier is shown below. The
words 110 and 111 are reserved for test purposes.
P2 P1 P0
0
0
0
0
1
1
0
0
1
1
0
0
0
1
0
1
0
1
Power amplifier
current
1.8 mA
3.5 mA
7.5 mA
30 mA
60 mA
110 mA
Table 3 Sink current levels
TR (register)
0
0
1
1
RE (input pin)
0
1
0
1
Mode
M1 (standby)
M2 (carrier detector)
M3 (transmitter)
M4 (receiver)
Table 4 Mode selection
Upon start-up, a reset of the XE1209 is required to set the configuration register in a proper default mode. This is done
by sending the binary word 'b00000000 to the circuit using the 3-wire bus, while setting RE to “0”.
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XE1209
Ultra Low Power CMOS Transceiver
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Contact Information
Semtech Corporation
Wireless and Sensing Products Division
200 Flynn Road, Camarillo, CA 93012
Phone (805) 498-2111 Fax : (805) 498-3804
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