LMX2522 [TI]
具有集成 VCO 的 PLLatinum 双路频率合成器系统;型号: | LMX2522 |
厂家: | TEXAS INSTRUMENTS |
描述: | 具有集成 VCO 的 PLLatinum 双路频率合成器系统 |
文件: | 总26页 (文件大小:438K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
LMX2522, LMX2532
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SNWS009B –MARCH 2003–REVISED APRIL 2013
LMX2522/LMX2532 PLLatinum™ Frequency Synthesizer System with Integrated VCOs
Check for Samples: LMX2522, LMX2532
1
FEATURES
DESCRIPTION
LMX2522 and LMX2532 are highly integrated, high
performance, low power frequency synthesizer
systems optimized for Korean PCS (K-PCS) with
GPS and Korean Cellular (K-Cellular) with GPS,
CDMA (1xRTT, IS-95) mobile handsets. Using a
proprietary digital phase locked loop technique,
LMX2522 and LMX2532 generate very stable, low
noise local oscillator signals for up and down
conversion in wireless communications devices.
23
•
Small Size
Small 5.0 mm x 5.0 mm x 0.75 mm 28-Pin
WQFN Package
RF/GPS Synthesizer System
–
•
–
–
–
–
Integrated RF VCO
Integrated GPS VCO
Integrated Loop Filter
Low Spurious, Low Phase Noise Fractional-
N RF PLL Based on 11-bit Delta Sigma
Modulator
LMX2522 and LMX2532 include
a RF voltage
controlled oscillator (VCO), a GPS VCO, a loop filter,
and a fractional-N RF PLL based on a delta sigma
modulator. In concert these blocks form a closed loop
RF and GPS synthesizer system. LMX2522 supports
the Korean PCS band with GPS and LMX2532
supports the Korean Cellular band with GPS.
–
10 kHz Frequency Resolution
•
•
IF Synthesizer System
–
–
Integer-N IF PLL
Programmable Charge Pump Current
Levels
LMX2522 and LMX2532 include an Integer-N IF PLL
also. For more flexible loop filter designs, the IF PLL
–
Programmable Frequencies
includes
a 4-level programmable charge pump.
Together with an external VCO and loop filter,
LMX2522 and LMX2532 make a complete closed
loop IF synthesizer system.
Supports Various Reference Oscillator
Frequencies
–
19.20/19.68 MHz
Serial data is transferred to the device via a three-
wire MICROWIRE interface (DATA, LE, CLK).
•
•
Fast Lock Time: 500 µs
Low Current Consumption
Operating supply voltage ranges from 2.7 V to 3.3 V.
LMX2502 and LMX2512 feature low current
consumption: 17 mA at 2.8 V.
–
17 mA at 2.8 V
•
•
•
2.7 V to 3.3 V Operation
Digital Filtered Lock Detect Output
Hardware and Software Power Down Control
LMX2522 and LMX2532 are available in a 28-pin
WQFN package.
APPLICATIONS
•
•
Korean PCS CDMA Systems with GPS
Korean Cellular CDMA Systems with GPS
1
Please be aware that an important notice concerning availability, standard warranty, and use in critical applications of
Texas Instruments semiconductor products and disclaimers thereto appears at the end of this data sheet.
2
3
PLLatinum is a trademark of Texas Instruments.
All other trademarks are the property of their respective owners.
PRODUCTION DATA information is current as of publication date.
Products conform to specifications per the terms of the Texas
Instruments standard warranty. Production processing does not
necessarily include testing of all parameters.
Copyright © 2003–2013, Texas Instruments Incorporated
LMX2522, LMX2532
SNWS009B –MARCH 2003–REVISED APRIL 2013
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Functional Block Diagram
RF
Phase
Detector
OSCin
Loop
Filter
RFout
RF VCO
GPS VCO
V
CC
N/(N+1) Divider
V
DD
Power
Down
Control
Delta Sigma
Control
CE
IF R
Divider
IF
Phase
Detector
CLK
DATA
LE
CPout
Fin
Serial
Interface
IF N Divider
Lock
Detect
LD
GND
Connection Diagram
CPout
NC
1
2
3
4
5
6
7
21
20
19
18
17
16
15
GND
CE
NC
LD
VDD
LE
VCC
VCC
VCC
RFout
CLK
GND
DATA
NOTE: Analog ground connected through exposed die attached pad.
Figure 1. 28-Pin WQFN (NJB) Package
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PIN DESCRIPTIONS
Pin Number
Name
CPout
NC
I/O
O
—
—
—
I
Description
1
IF PLL charge pump output
2
Do not connect to any node on printed circuit board.
Do not connect to any node on printed circuit board.
Supply voltage for IF analog circuitry
MICROWIRE Latch Enable
3
NC
4
VDD
LE
5
6
CLK
DATA
VDD
NC
I
MICROWIRE Clock
7
I
MICROWIRE Data
8
—
—
—
—
—
—
—
O
—
—
—
O
I
Supply voltage for VCOs
9
Do not connect to any node on printed circuit board.
Do not connect to any node on printed circuit board.
Do not connect to any node on printed circuit board.
Do not connect to any node on printed circuit board.
Supply voltage for VCOs
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
NC
NC
NC
VDD
VDD
RFout
VCC
VCC
VCC
LD
Supply voltage for VCOs output buffer
Buffered VCO output
Supply voltage for RF prescaler
Supply voltage for charge pump
Supply voltage for RF digital circuitry
Lock Detect
CE
Chip Enable control pin
GND
OSCin
VCC
GND
VCC
Fin
—
I
Ground for digital circuitry
Reference frequency input
—
—
—
I
Supply voltage for reference input buffer
Ground for digital circuitry
Supply voltage for IF digital circuitry
IF buffer/prescaler input
VCC
NC
—
—
Supply voltage for IF buffer/prescaler
Do not connect to any node on printed circuit board.
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These devices have limited built-in ESD protection. The leads should be shorted together or the device placed in conductive foam
during storage or handling to prevent electrostatic damage to the MOS gates.
Absolute Maximum Ratings(1)(2)(3)
Parameter
Symbol
VCC, VDD
VI
Ratings
Units
V
Supply Voltage
-0.3 to 3.6
Voltage on any pin
to GND
-0. 3 to VDD+0.3
-0. 3 to VCC+0.3
-65 to 150
V
V
Storage Temperature
Range
TSTG
°C
(1) Absolute Maximum Ratings indicate limits beyond which damage to the device may occur. Recommended Operating Conditions indicate
conditions for which the device is intended to be functional, but do not ensure specific performance limits. For ensured specifications
and test conditions, refer to the Electrical Characteristics section. The ensured specifications apply only for the conditions listed.
(2) This device is a high performance RF integrated circuit with an ESD rating < 2 kV and is ESD sensitive. Handling and assembly of this
device should be done at ESD protected work stations.
(3) GND = 0 V.
Recommended Operating Conditions
Parameter
Symbol
Min
-30
2.7
Typ
Max
85
Units
°C
Ambient Temperature TA
25
Supply Voltage (to
GND)
VCC, VDD
3.3
V
Electrical Characteristics
(VCC = VDD = 2.8 V, TA = 25 °C; unless otherwise noted.)
Symbol
ICC PARAMETERS
ICC + IDD Total Supply Current
(ICC
IDD RF
IPD
Parameter
Conditions
Min
Typ
Max
Units
OB_CRL [1:0] = 00
OB_CRL [1:0] = 00
17
16
19
18
mA
mA
+
RF PLL Total Supply Current
)
(1)
Power Down Current
CE = Low or
RF_EN = 0
IF_EN = 0
20
µA
REFERENCE OSCILLATOR
fOSCin
Reference Oscillator Input Frequency
19.20 MHz and 19.68
MHz are supported
19.20
19.68
VCC
MHz
VP-P
(2)
VOSCin
Reference Oscillator Input sensitivity
0.2
(1) In power down mode, set DATA, CLK and LE pins to 0 V (GND).
(2) The reference frequency must also be programmed using the OSC_FREQ control bit. For other reference frequencies, please contact
Texas Instruments.
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Electrical Characteristics (continued)
(VCC = VDD = 2.8 V, TA = 25 °C; unless otherwise noted.)
Symbol
RF VCO
fRFout
Parameter
Conditions
Min
Typ
Max
Units
(3)
Frequency Range
LMX2522LQ1635
LMX2532LQ0967
LMX2532LQ1065
OB_CRL [1:0] = 11
OB_CRL [1:0] = 10
OB_CRL [1:0] = 01
OB_CRL [1:0] = 00
LMX2522LQ1635
RF VCO
1619.62
954.42
1052.64
-2
1649.62
MHz
MHz
MHz
dBm
dBm
dBm
dBm
µs
979.35
1077.57
pRFout
RF Output Power
1
-2
4
1
-5
-7
-4
-1
-9
-6
-3
(4)
Lock Time
30 MHz Band for RF
PLL
500
800
LMX2532LQ0967
LMX2532LQ1065
25 MHz Band for RF
PLL
500
500
800
800
-75
µs
µs
25 MHz Band for RF
PLL
Reference Spurs
RMS Phase Error
Phase Noise
dBc
degrees
dBc/Hz
dBc/Hz
dBc/Hz
dBc/Hz
dBc/Hz
dBc/Hz
dBc
RF PLL in all band
LMX2522LQ1635
1.3
L(f)
@100 kHz offset
@1.25 MHz offset
@100 kHz offset
@900 kHz offset
@100 kHz offset
@900kHz offset
-113
-138
-117
-139
-117
-139
-112
-136
-115
-138
-115
-138
-25
LMX2532LQ0967
LMX2532LQ1065
2nd Harmonic Suppression
3rd Harmonic Suppression
-20
dBc
GPS VCO
fRFout
Operating Frequency
Output Power
LMX2522LQ1635
GPS VCO
1355.04
MHz
MHz
MHz
dBm
dBm
dBm
dBm
µs
LMX2532LQ0967
LMX2532LQ1065
1490.04
1391.82
pRFout
OB_CRL [1:0] = 11
OB_CRL [1:0] = 10
OB_CRL [1:0] = 01
OB_CRL [1:0] = 00
From RF to GPS PLL
-2
-5
-7
-9
1
-2
4
1
-4
-1
-6
-3
(4)
Lock Time
600
800
-75
Reference Spurs
RMS Phase Error
Phase Noise
dBc
RF PLL in all band
@100 kHz offset
@1.25 MHz offset
1.3
degrees
dBc/Hz
dBc/Hz
dBc
L(f)
-113
-138
-112
-136
-25
2nd Harmonic Suppression
3rd Harmonic Suppression
-20
dBc
(3) For other frequency ranges, please contact Texas Instruments.
(4) Lock time is defined as the time difference between the beginning of the frequency transition and the point at which the frequency
remains within +/- 1 kHz of the final frequency.
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Units
Electrical Characteristics (continued)
(VCC = VDD = 2.8 V, TA = 25 °C; unless otherwise noted.)
Symbol
IF PLL
fFin
Parameter
Conditions
Min
Typ
Max
Operating Frequency
LMX2522LQ1635
LMX2532LQ0967
LMX2532LQ1065
IF_FREQ [1:0] = 10,
Default Value
440.76
170.76
367.20
MHz
MHz
MHz
(5)
IF_FREQ [1:0] = 00,
Default Value
IF_FREQ [1:0] = 01,
Default Value
pFin
IF Input Sensitivity
-10
0
dBm
kHz
µA
fΦIF
Phase Detector Frequency
Charge Pump Current
120
100
200
300
800
ICPout
IF_CUR [1:0] = 00
IF_CUR [1:0] = 01
IF_CUR [1:0] = 10
IF_CUR [1:0] = 11
µA
µA
µA
DIGITAL INTERFACE (DATA, CLK, LE, LD, CE)
VIH
High-Level Input Voltage
0.8 VDD
VDD
VCC
V
V
0.8 VCC
VIL
Low-Level Input Voltage
0
0.2 VDD
0.2 VCC
10
V
0
V
IIH
IIL
High-Level Input Current
Low-Level Input Current
Input Capacitance
-10
-10
µA
µA
pF
V
10
3
VOH
High-Level Output Voltage
0.9 VDD
0.9 VCC
V
VOL
Low-Level Output Voltage
Output Capacitance
0.1 VDD
0.1 VCC
5
V
V
pF
MICROWIRE INTERFACE TIMING
tCS
Data to Clock Set Up Time
Data to Clock Hold Time
Clock Pulse Width High
50
10
50
50
50
50
ns
ns
ns
ns
ns
ns
tCH
tCWH
tCWL
tES
Clock Pulse Width Low
Clock to Latch Enable Set Up Time
Latch Enable Pulse Width
tEW
(5) Frequencies other that the default value can be programmed using Words R4 and R5. See Programming Description for details.
Serial Data Input Timing
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FUNCTIONAL DESCRIPTION
GENERAL DESCRIPTION
LMX2522/32 is a highly integrated frequency synthesizer system that generates LO signals for PCS, Cellular
CDMA and GPS systems. These devices include all of the functional blocks of a PLL, RF VCO, prescaler, RF
phase detector, and loop filter. The need for external components is limited to a few passive elements for
matching the output impedance and bypass elements for power line stabilization.
In addition to the RF circuitry, the IC also includes IF frequency dividers, and an IF phase detector to complete
the IF synthesis with an external VCO and loop filter. Table 4 summarizes the counter values to generate the
default IF frequencies.
Using a low spurious fractional-N synthesizer based on a delta sigma modulator, the circuit can support 10 kHz
channel spacing for PCS, Cellular CDMA and GPS systems.
The fractional-N synthesizer enables faster lock time, which reduces power consumption and system set-up time.
Additionally, the loop filter occupies a smaller area as opposed to the integer-N architecture. This allows the loop
filter to be embedded into the circuit, minimizing the external noise coupling and total form factor. The delta
sigma architecture delivers very low spurious, which can be a significant problem for other PLL solutions.
The circuit also supports commonly used reference frequencies of 19.20 MHz and 19.68 MHz.
FREQUENCY GENERATION
RF-PLL Section
The divide ratio can be calculated using the following equation:
LMX2522 – PCS CDMA:
fVCO = {8 x RF_B + RF_A + (RF_FN / fOSC) x 104} x fOSC
where
•
(RF_A < RF_B)
LMX2532 – Cellular CDMA:
fVCO = {6 x RF_B + RF_A + (RF_FN / fOSC) x 104} x fOSC
where
•
•
•
•
(RF_A < RF_B)
fVCO: Output frequency of voltage controlled oscillator (VCO)
RF_B: Preset divide ratio of binary 4-bit programmable counter (2 ≤ RF_B ≤ 15)
RF_A: Preset divide ratio of binary 3-bit swallow counter (0 ≤ RF_A ≤ 7 for LMX2522 or 0 ≤ RF_A ≤ 5 for
LMX2532)
•
•
RF_FN: Preset numerator of binary 11-bit modulus counter (0 ≤ RF_FN < 1920 for fOSC = 19.20 MHz or 0 ≤
RF_FN < 1968 for fOSC = 19.68 MHz)
fOSC: Reference oscillator frequency
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GPS-PLL SECTION
The divide ratio can be calculated using the following equation:
LMX2522 – PCS CDMA:
fVCO = {6 x RF_B + RF_A + (RF_FN / fOSC) x 104} x fOSC
where
•
(RF_A < RF_B)
LMX2532 – Cellular CDMA:
fVCO = {8 x RF_B + RF_A + (RF_FN / fOSC) x 104} x fOSC
where
•
•
•
•
(RF_A < RF_B)
fVCO: Output frequency of voltage controlled oscillator (VCO)
RF_B: Preset divide ratio of binary 4-bit programmable counter (2 ≤ RF_B ≤ 15)
RF_A: Preset divide ratio of binary 3-bit swallow counter (0 ≤ RF_A ≤ 5 for LMX2522 or 0 ≤ RF_A ≤ 7 for
LMX2532)
•
•
RF_FN: Preset numerator of binary 11-bit modulus counter (0 ≤ RF_FN < 1920 for fOSC = 19.20 MHz or 0 ≤
RF_FN < 1968 for fOSC = 19.68 MHz)
fOSC: Reference oscillator frequency
PCS CDMA applications using the LMX2522, if the GPS frequency is 1355.04 MHz, Table 1 provides the proper
register settings:
Table 1. Settings for GPS (1355.04 MHz) in LMX2522 PCS CDMA application
Reference Frequency
19.20 MHz
RF_B
11
RF_A
RF_FN
1104
4
2
19.68 MHz
11
1680
Cellular CDMA applications using the LMX2532, in which the GPS frequency is 1490.04 MHz, then Table 2
provides the proper register settings:
Table 2. Settings for GPS (1490.04 MHz) in LMX2532 Cellular CDMA application
Reference Frequency
19.20 MHz
RF_B
RF_A
RF_FN
1164
9
9
5
3
19.68 MHz
1404
Cellular CDMA applications using the LMX2532, in which the GPS frequency is 1391.82 MHz, then Table 3
provides the proper register settings:
Table 3. Settings for GPS (1391.82 MHz) in LMX2532 Cellular CDMA application
Reference Frequency
19.20 MHz
RF_B
RF_A
RF_FN
942
9
8
0
6
19.68 MHz
1422
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IF-PLL SECTION
fVCO = {16 x IF_B + IF_A} x fOSC / IF_R
where
•
•
•
•
•
•
(IF_A < IF_B)
fVCO: Output frequency of the voltage controlled oscillator (VCO)
IF_B: Preset divide ratio of the binary 9-bit programmable counter (1 ≤ IF_B ≤ 511)
IF_A: Preset divide ratio of the binary 4-bit swallow counter (0 ≤ IF_A ≤ 15)
fOSC: Reference oscillator frequency
IF_R: Preset divide ratio of the binary 9-bit programmable reference counter (2 ≤ IF_R ≤ 511)
From the above equation, the LMX2522/32 generates the fixed IF frequencies as summarized in Table 4.
Table 4. IF Frequencies
Device Type
fVCO
(MHz)
IF_B
IF_A
fOSC/IF_R
(kHz)
LMX2522LQ1635
LMX2532LQ0967
LMX2532LQ1065
440.76
170.67
367.20
229
88
9
15
4
120
120
120
191
VCO FREQUENCY TUNING
The center frequency of the RF VCO is mainly determined by the resonant frequency of the tank circuit. This
tank circuit is implemented on-chip and requires no external inductor. The LMX2522/32 actively tunes the tank
circuit to the required frequency with the built-in tracking algorithm.
BANDWIDTH CONTROL AND FREQUENCY LOCK
During the frequency acquisition period, the loop bandwidth is significantly extended to achieve frequency lock.
Once frequency lock occurs, the PLL will return to a steady state condition with the loop bandwidth set to its
nominal value. The transition between acquisition and lock modes occurs seamlessly and extremely fast,
thereby, meeting the stringent requirements associated with lock time and phase noise. Several controls
(BW_DUR, BW_CRL and BW_EN) are used to optimize the lock time performance.
SPURIOUS REDUCTION
To improve the spurious performance of the device one of two types of spurious reduction schemes can be
selected:
•
A continuous optimization scheme, which tracks the environmental and voltage variations, giving the best
spurious performance over changing conditions
•
A one time optimization scheme, which sets the internal compensation values only when the PLL goes into a
locked state.
The spurious reduction can also be disabled, but it is recommended that the continuous optimization mode be
used for normal operation.
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POWER DOWN MODE
The LMX2522 and LMX2532 include a power down mode to reduce the power consumption. The LMX2522/32
enters into the power down mode either by taking the CE pin LOW or by setting the power down bits in Register
R1. Table 5 summarizes the power down function. If CE is set LOW, the circuit is powered down regardless of
the register values. When CE is HIGH, the IF and RF circuitry are individually powered down by setting the
register bits.
Table 5. Power Down Configuration(1)
CE Pin
RF_EN
IF_EN
RF Circuitry
OFF
IF Circuitry
OFF
0
1
1
1
1
X
0
0
1
1
X
0
1
0
1
OFF
OFF
OFF
ON
ON
OFF
ON
ON
(1) X = Don’t care.
LOCK DETECT
The LD output can be used to indicate the lock status of the RF PLL. Bit 21 in Register R0 determines the signal
that appears on the LD pin. When the RF PLL is not locked, the LD pin remains LOW. After obtaining phase
lock, the LD pin will have a logical HIGH level. The output can also be programmed to be ground at all times.
Table 6. Lock Detect Modes
LD Bit
Mode
Disable (GND)
Enable
0
1
Table 7. Lock Detect Logic Table(1)(2)(3)(4)(5)
RF PLL Section
Locked
LD Output
HIGH
Not Locked
LOW
(1) LD output becomes low when the phase error is larger than tW2
.
(2) LD output becomes high when the phase error is less than tW1 for four or more consecutive cycles.
(3) Phase Error is measured on leading edge. Only errors greater than tW1 and tW2 are labeled.
(4) tW1 and tW2 are equal to 10 ns.
(5) The lock detect comparison occurs with every 64th cycle of fR and fN.
fR/64
fN/64
Dt > tW1
Dt > tW2
LD
Figure 2. Lock Detect Timing Diagram Waveform
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START
LD = LOW
(Not Locked)
NO
NO
NO
NO
Phase Error < tW1
YES
Phase Error < tW1
YES
Phase Error < tW1
YES
Phase Error < tW1
YES
LD = HIGH
(Locked)
NO
YES
Phase Error > tW2
Figure 3. Lock Detect Flow Diagram
MICROWIRE INTERFACE
The programmable register set is accessed via the MICROWIRE serial interface. The interface comprises three
signal pins: CLK, DATA, and LE. Serial data (DATA) is clocked into the 24-bit shift register on the rising edge of
the clock (CLK). The last bits decode the internal control register address. When the Latch Enable (LE)
transitions from LOW to HIGH, data stored in the shift registers is loaded into the corresponding control register.
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Programming Description
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CONTROL REGISTER CONTENT MAP
The serial interface has a 24-bit shift register to store the incoming data bits temporarily. The incoming Data is
loaded into the shift register from MSB to LSB. The Data is shifted at the rising edge of the Clock signal. When
the Latch Enable signal transitions from LOW to HIGH, the data stored in the shift register is transferred to the
proper register depending on the address bit settings. The selection of the particular register is determined by the
control bits indicated in boldface text.
At initial start-up, the MICROWIRE loading requires 4 default words (registers R3, loaded first, to R0, loaded
last). After the device has been initially programmed, the RF VCO frequency can be changed using a single
register (R0). If an IF frequency other than the default value for the device is desired the SPI_DEF bit should be
set to 0, the desired values for IF_A, IF_B, and IF_R entered and words R6 to R0 should be sent.
The control register content map describes how the bits within each control register are allocated to the specific
control functions.
Table 8. Complete Register Map
Register
MSB
23
SHIFT REGISTER BIT LOCATION
LSB
22 21 20 19 18 17 16 15 14 13 12 11 10
9
8
7
6
5
4
3
2
1
0
0
0
R0
(Default)
SPI_ RF RF SP RF_B
DEF
RF_A
[2:0]
RF_FN
[10:0]
_
_
UR [3:0]
SE LD
L
_
CR
L
R1
(Default)
IF_
FREQ
[1:0]
OS
C_
FR
EQ
1
0
1
0
0
0
0
0
0
SPUR_
RDT
[1:0]
0
0
1
0
1
OB_
CRL
[1:0]
RF IF_
0
1
_
EN
EN
R2
(Default)
IF_
CUR[1:0]
0
0
0
1
0
0
1
1
1
1
1
1
0
1
1
0
1
1
0
0
1
0
0
0
1
1
0
1
0
0
0
1
0
1
1
0
1
R3
(Default)
BW_
DUR
[1:0]
BW_
CRL
[1:0]
B
W_
EN
VCO_
CUR
[1:0]
0
R4
R5
R6
0
0
1
0
0
0
0
1
0
1
1
0
0
0
0
0
0
0
0
0
0
IF_A
[3:0]
IF_B
[8:0]
0
1
1
1
1
1
1
1
1
1
0
0
1
0
0
IF_R
[8:0]
0
1
1
1
0
0
0
0
0
0
0
0
0
0
NOTE: Bold numbers represent the address bits.
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R0 REGISTER
The R0 register address bits (R0 [1:0]) are “00”.
The SPI_DEF bit selects between using the default IF counter values and user programmable values. The use of
the default counter values requires that only words R0 to R3 (registers R3, loaded first, to R0, loaded last) be
sent after initial power up.
The RF_LD bit activates the lock detect output of the LD pin (pin 19). The lock detect mode shows the lock
status of the RF PLL. The waveform of the lock detect mode is shown in Figure 2, in the Functional Description
section on LOCK DETECT.
The SPUR_CRL bit is set to 1 only in the GPS mode with the LMX2532LQ1065 when a 19.68 MHz reference
oscillator is used.
The RF N counter consists of the 4-bit programmable counter (RF_B counter), the 3-bit swallow counter (RF_A
counter) and the 11-bit delta sigma modulator (RF_FN counter). The equations for calculating the counter values
are presented below.
Table 9. R0 REGISTER
Register MSB
23
SHIFT REGISTER BIT LOCATION
LSB
0
22 21 20 19 18 17 16 15 14 13 12 11 10
Data Field
9
8
7
6
5
4
3
2
1
Address
Field
R0
SPI_ RF RF SP RF_B
RF_A
[2:0]
RF_FN
[10:0]
0
0
(Default) DEF
_
_
UR [3:0]
SE LD
L
_
CR
L
Name
Functions
Default Register Selection
0 = OFF (Use values set in R0 to R6)
SPI_DEF
1 = ON (Use default values set in R0 to R3)
RF_SEL
RF_LD
RF Select Configuration
See Table 10. RF_SEL Configuration below
RF Lock Detect
0 = Hard zero (GND)
1 = Lock detect
SPUR_CRL
Spur Control
1 = LMX2532LQ1065 in GPS mode with 19.68 MHz reference
oscillator only
0 = All other options
RF_B [3:0]
RF_A [2:0]
RF_B Counter
4-bit programmable counter
2 ≤ RF_B ≤ 15
RF_A Counter
3-bit swallow counter
0 ≤ RF_A ≤ 7 for LMX2522
0 ≤ RF_A ≤ 5 for LMX2532
RF_FN [10:0]
RF Fractional Numerator Counter
11-bit programmable counter
0 ≤ RF_FN < 1920 for fOSC = 19.20 MHz
0 ≤ RF_FN < 1968 for fOSC = 19.68 MHz
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Table 10. RF_SEL Configuration
Device Type
LMX2522
RF_SEL = 0
GPS
RF_SEL = 1
K-PCS
LMX2532
K-Cellular
GPS
RF N Counter Setting:
Counter Name
Symbol
RF_FN
RF_B
Function
Modulus Counter
RF N Divider
N = Prescaler x RF_B + RF_A + (RF_FN /
Programmable
Counter
fOSC) 104
Swallow Counter
RF_A
Pulse Swallow Function:
f = {Prescaler x RF_B + RF_A + (RF_FN / fOSC) x 104} x fOSC where (RF_A < RF_B)
where
•
fVCO: Output frequency of voltage controlled oscillator (VCO)
Prescaler Values:
Device Type
LMX2522
RF Prescaler
GPS Prescaler
8
6
6
8
LMX2532
•
•
RF_B: Preset divide ratio of binary 4-bit programmable counter (2 ≤ RF_B ≤ 15)
RF_A: Preset divide ratio of binary 3-bit swallow counter (0 ≤ RF_A ≤ 7 for prescaler of 8 or 0 ≤ RF_A ≤ 5 for
prescaler of 6)
•
•
RF_FN: Preset numerator of binary 11-bit modulus counter (0 ≤ RF_FN < 1920 for fOSC = 19.20 MHz; 0 ≤
RF_FN < 1968 for fOSC = 19.68 MHz)
fOSC: Reference oscillator frequency
NOTE: For the use of reference frequencies other than those specified, please contact Texas Instruments.
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R1 REGISTER
The R1 register address bits (R1 [1:0]) are “01”.
The IF_FREQ bits selects the default IF frequency applicable to the specific CDMA system. For the LMX2522 the
default IF frequency is 440.76 MHz, and for the LMX2532 the default IF frequencies are 367.20 MHz and 170.76
MHz, depending on variant.
Reference Frequency Selection bit (OSC_FREQ) selects either 19.20 MHz or 19.68 MHz for the reference
oscillator frequency.
The internal spurious reduction scheme is controlled by the SPUR_RDT [1:0] bits. There are two different spur
reduction schemes: a continuous tracking mode and a single optimization mode. The continuous tracking mode
will adjust for variations in voltage and temperature. The single optimization mode fixes the internal
compensation parameters only when the PLL goes into the locked state. The spur reduction can also be
disabled, but it is recommended that the continuous mode be used for normal operation.
The OB_CRL [1:0] bits determine the power level of the RF output buffer. The power level is set according to the
system requirement.
The two bits, RF_EN and IF_EN, logically select the active state of the RF/GPS synthesizer system and the IF
PLL, respectively. The entire IC can be placed in a power down state by using the CE control pin (pin 20).
Table 11. R1 REGISTER
Register MSB
23
SHIFT REGISTER BIT LOCATION
LSB
0
22 21 20 19 18 17 16 15 14 13 12 11 10
Data Field
9
8
7
6
5
4
3
2
1
Address
Field
R1
IF_
OS
C_
FR
EQ
1
0
0
0
0
0
0
0
SPUR_
RDT
[1:0]
0
0
1
0
1
OB_
CRL
[1:0]
RF IF_
0
1
(Default) FREQ
_
EN
[1:0]
EN
Name
Functions
IF_FREQ [1:0]
IF Frequency Selection
00 = 170.76 MHz (LMX2532LQ0967)
01 = 367.20 MHz (LMX2532LQ1065)
10 = 440.76 MHz (LMX2522LQ1635)
OSC_FREQ
Reference Frequency Selection
0 = 19.20 MHz
1 = 19.68 MHz
SPUR_RDT [1:0]
Spur Reduction Scheme
00 = No spur reduction
01 = Not Used
10 = Continuous tracking of variation (Recommended)
11 = One time optimization
OB_CRL [1:0]
RF Output Power Control
00 = Minimum Output Power
01 =
10 =
11 = Maximum Output Power
RF_EN
IF_EN
RF Enable
0 = RF Off
1 = RF On
IF Enable
0 = IF Off
1 = IF On
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R2 REGISTER
The R2 Register address bits (R2 [1:0]) are “10”.
The IF_CUR [1:0] bits program the IF charge pump current. Considering the external IF VCO and loop filter, the
user can select the amount of IF charge pump current to be 100µA, 200µA, 300µA or 800µA.
Table 12. R2 REGISTER
Register MSB
23
SHIFT REGISTER BIT LOCATION
LSB
0
22 21 20 19 18 17 16 15 14 13 12 11 10
Data Field
9
8
7
6
5
4
3
2
1
Address
Field
R2
IF_
0
0
1
0
0
1
1
1
0
1
1
0
1
0
1
0
0
0
1
0
1
0
(Default) CUR[1:0]
Name
Functions
IF_CUR [1:0]
IF Charge Pump Current
00 = 100 µA
01 = 200 µA
10 = 300 µA
11 = 800 µA
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R3 REGISTER
The R3 register address bits (R3 [2:0]) are “011”.
Register R3 contains the controls for the phase lock bandwidth controls (BW_DUR, BW_CRL and BW_EN). The
duration of the digital controller portion of the bandwidth control is set by BW_DUR [1:0]. The minimum time set
with 00 and increasing durations to the maximum value set with 11. BW_CRL [1:0] sets the phase offset criterion
for the bandwidth controller. Once the phase offset between the reference clock and the divided VCO signal are
within the set criterion, the bandwidth control stops. The maximum phase offset is set with 00 and decreases to
the minimum value set with 11. BW_EN enables the bandwidth control in the locking state.
The VCO dynamic current is also controlled in register R3 with VCO_CUR [1:0]. The minimum value corresponds
to 00 and increases to a maximum value set at 11.
Table 13. R3 REGISTER
Register MSB
23
SHIFT REGISTER BIT LOCATION
LSB
0
22 21 20 19 18 17 16 15 14 13 12 11 10
Data Field
9
8
7
6
5
4
3
2
0
1
Address
Field
R3
BW_
BW_
CRL
[1:0]
B
W_
EN
1
0
1
1
1
1
0
1
0
0
0
1
1
0
VCO_
CUR
[1:0]
1
1
(Default) DUR
[1:0]
Name
Functions
Bandwidth Duration
BW_DUR [1:0]
00 = Minimum value (Recommended)
01 =
10 =
11 = Maximum value
BW_CRL [1:0]
Bandwidth Control
00 = Maximum phase offset (Recommended)
01 =
10 =
11 = Minimum phase offset
BW_EN
Bandwidth Enable
0 = Disable
1 = Enable (Recommended)
VCO_CUR [1:0]
VCO Dynamic Current
00 = Minimum value
01 =
10 =
11 = Maximum value (Recommended)
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R4 REGISTER
The R4 register address bits (R3 [3:0]) are “0111”.
Register R4 is used to set the IF N counters if the default value is not desired. This register is only active if the
SPI_DEF bit in register R0 is 0.
The IF N counter consists of the 9-bit programmable counter (IF_B counter) and the 4-bit swallow counter (IF_A
counter). The equations for calculating the counter values are presented below.
Table 14. R4 REGISTER
Register MSB
23
SHIFT REGISTER BIT LOCATION
LSB
0
22 21 20 19 18 17 16 15 14 13 12 11 10
Data Field
9
8
7
6
5
4
3
0
2
1
Address
Field
R4
0
0
0
1
0
0
0
IF_A
[3:0]
IF_B
[8:0]
1
1
1
Name
Functions
IF_A [3:0]
IF A Counter
4-bit swallow counter
0 ≤ IF_A ≤ 15
IF_B [8:0]
IF B Counter
9-bit programmable counter
1 ≤ IF_B ≤ 511
IF Frequency Setting:
fVCO = {16 x IF_B + IF_A} x fOSC / R where (IF_A < IF_B)
where
•
•
•
•
•
fVCO: Output frequency of IF voltage controlled oscillator (IF VCO)
IF_B: Preset divide ratio of binary 9-bit programmable counter (1 ≤ IF_B ≤ 511)
IF_A: Preset divide ratio of binary 4-bit swallow counter (0 ≤ IF_A ≤ 15)
IF_R: Preset divide ratio of binary 9-bit programmable reference counter (2 ≤ IF_R ≤ 511)
fOSC: Reference oscillator frequency
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R5 REGISTER
The R5 register address bits (R5 [4:0]) are “01111”.
Register R5 is used to set the IF_R divider if the default value is not desired. This register is only active if the
SPI_DEF bit in register R0 is 0.
Table 15. R5 REGISTER
Register MSB
23
SHIFT REGISTER BIT LOCATION
LSB
0
22 21 20 19 18 17 16 15 14 13 12 11 10
Data Field
9
8
7
6
5
4
0
3
1
2
1
Address
Field
R5
0
0
1
1
0
0
0
0
1
0
IF_R
[8:0]
1
1
1
Name
Functions
IF_R [8:0]
IF R Counter
9-bit programmable counter
2 ≤ IF_R ≤ 511
R6 REGISTER
The R6 register address bits (R6 [5:0]) are “011111”.
Register R6 is used for internal testing of the device and is not intended for customer use. This register is only
active if the SPI_DEF bit in register R0 is 0.
Table 16. R6 REGISTER
Register MSB
23
SHIFT REGISTER BIT LOCATION
LSB
0
22 21 20 19 18 17 16 15 14 13 12 11 10
Data Field
9
8
7
6
5
0
4
1
3
2
1
Address Field
R6
1
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
1
1
1
1
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REVISION HISTORY
Changes from Revision A (April 2013) to Revision B
Page
•
Changed layout of National Data Sheet to TI format .......................................................................................................... 19
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PACKAGE OPTION ADDENDUM
www.ti.com
19-Feb-2022
PACKAGING INFORMATION
Orderable Device
Status Package Type Package Pins Package
Eco Plan
Lead finish/
Ball material
MSL Peak Temp
Op Temp (°C)
Device Marking
Samples
Drawing
Qty
(1)
(2)
(3)
(4/5)
(6)
LMX2522LQ1635
NRND
WQFN
WQFN
NJB
28
28
1000
Non-RoHS
& Green
Call TI
Level-3-260C-168 HR
Level-3-260C-168 HR
-30 to 85
-30 to 85
25221635
25221635
LMX2522LQ1635/NOPB
ACTIVE
NJB
1000 RoHS & Green
SN
(1) The marketing status values are defined as follows:
ACTIVE: Product device recommended for new designs.
LIFEBUY: TI has announced that the device will be discontinued, and a lifetime-buy period is in effect.
NRND: Not recommended for new designs. Device is in production to support existing customers, but TI does not recommend using this part in a new design.
PREVIEW: Device has been announced but is not in production. Samples may or may not be available.
OBSOLETE: TI has discontinued the production of the device.
(2) RoHS: TI defines "RoHS" to mean semiconductor products that are compliant with the current EU RoHS requirements for all 10 RoHS substances, including the requirement that RoHS substance
do not exceed 0.1% by weight in homogeneous materials. Where designed to be soldered at high temperatures, "RoHS" products are suitable for use in specified lead-free processes. TI may
reference these types of products as "Pb-Free".
RoHS Exempt: TI defines "RoHS Exempt" to mean products that contain lead but are compliant with EU RoHS pursuant to a specific EU RoHS exemption.
Green: TI defines "Green" to mean the content of Chlorine (Cl) and Bromine (Br) based flame retardants meet JS709B low halogen requirements of <=1000ppm threshold. Antimony trioxide based
flame retardants must also meet the <=1000ppm threshold requirement.
(3) MSL, Peak Temp. - The Moisture Sensitivity Level rating according to the JEDEC industry standard classifications, and peak solder temperature.
(4) There may be additional marking, which relates to the logo, the lot trace code information, or the environmental category on the device.
(5) Multiple Device Markings will be inside parentheses. Only one Device Marking contained in parentheses and separated by a "~" will appear on a device. If a line is indented then it is a continuation
of the previous line and the two combined represent the entire Device Marking for that device.
(6)
Lead finish/Ball material - Orderable Devices may have multiple material finish options. Finish options are separated by a vertical ruled line. Lead finish/Ball material values may wrap to two
lines if the finish value exceeds the maximum column width.
Important Information and Disclaimer:The information provided on this page represents TI's knowledge and belief as of the date that it is provided. TI bases its knowledge and belief on information
provided by third parties, and makes no representation or warranty as to the accuracy of such information. Efforts are underway to better integrate information from third parties. TI has taken and
continues to take reasonable steps to provide representative and accurate information but may not have conducted destructive testing or chemical analysis on incoming materials and chemicals.
TI and TI suppliers consider certain information to be proprietary, and thus CAS numbers and other limited information may not be available for release.
In no event shall TI's liability arising out of such information exceed the total purchase price of the TI part(s) at issue in this document sold by TI to Customer on an annual basis.
Addendum-Page 1
PACKAGE OPTION ADDENDUM
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19-Feb-2022
Addendum-Page 2
PACKAGE MATERIALS INFORMATION
www.ti.com
9-Aug-2022
TAPE AND REEL INFORMATION
REEL DIMENSIONS
TAPE DIMENSIONS
K0
P1
W
B0
Reel
Diameter
Cavity
A0
A0 Dimension designed to accommodate the component width
B0 Dimension designed to accommodate the component length
K0 Dimension designed to accommodate the component thickness
Overall width of the carrier tape
W
P1 Pitch between successive cavity centers
Reel Width (W1)
QUADRANT ASSIGNMENTS FOR PIN 1 ORIENTATION IN TAPE
Sprocket Holes
Q1 Q2
Q3 Q4
Q1 Q2
Q3 Q4
User Direction of Feed
Pocket Quadrants
*All dimensions are nominal
Device
Package Package Pins
Type Drawing
SPQ
Reel
Reel
A0
B0
K0
P1
W
Pin1
Diameter Width (mm) (mm) (mm) (mm) (mm) Quadrant
(mm) W1 (mm)
LMX2522LQ1635
WQFN
NJB
NJB
28
28
1000
1000
178.0
178.0
12.4
12.4
5.3
5.3
5.3
5.3
1.3
1.3
8.0
8.0
12.0
12.0
Q1
Q1
LMX2522LQ1635/NOPB WQFN
Pack Materials-Page 1
PACKAGE MATERIALS INFORMATION
www.ti.com
9-Aug-2022
TAPE AND REEL BOX DIMENSIONS
Width (mm)
H
W
L
*All dimensions are nominal
Device
Package Type Package Drawing Pins
SPQ
Length (mm) Width (mm) Height (mm)
LMX2522LQ1635
WQFN
WQFN
NJB
NJB
28
28
1000
1000
208.0
208.0
191.0
191.0
35.0
35.0
LMX2522LQ1635/NOPB
Pack Materials-Page 2
MECHANICAL DATA
NJB0028A
LQA28A (REV B)
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相关型号:
LMX2522LQ1635/NOPB
IC PLL FREQUENCY SYNTHESIZER, 19.68 MHz, QCC28, 5 X 5 MM, 0.75 MM HEIGHT, LLP-28, PLL or Frequency Synthesis Circuit
NSC
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