1. PM3533
All-in-one energy management for smart phone RF solutions
Preliminary Data
Description
PM3533 is an all-in-one solution for RF energy
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management and RF front-end control for
GSM/EDGE/WCDMA/TD-SCDMA/LTE RF
solutions. It is designed specifically to support
Multi-Mode and Multi-Band Power Amplifier
(MMMB PA); with >90% efficiency and 2.6 V cut-
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off voltage support, PM3533 enable improved
efficiency for PA and RF IC to maximizes the
battery life time of smart phones.
The PM3533 includes DCDC converters for
transceiver and PA, PA bias DAC, linear regulated
low noise supply for RF FE, GPIOs for antenna
control of tunable antennas and SPI RF FE Features
control.
• All-in-one RF PMU
• Supports 2.6 V to 5.5 V battery voltage range
Applications
• High efficiency 400 mA DCDC converter for RF
• Multi-Mode and Multi-Band PA solutions transceiver
• Mobile phones – five level programmable output voltage
• Portable communication equipment • High efficiency 600 mA/1.5 A Buck DCDC
converter for PA with analog control voltage
• Navigation systems and connected devices
• Boost DCDC converter for PA
– BOOST by-pass mode
– Enables support for low VBAT cut-off: 2.6 V
• Line regulated low noise 2.5 V supply for RF
FE components
• PA bias DAC
• Three GPIO signals for RF FE control
• Battery voltage monitoring circuitry
• Under-voltage-lockout circuitry
• Thermal shutdown circuitry
• Green product: lead-free/RoHs compliant.
• VFBGA 3.4 mm x 3.4 mm x 1.0 mm with
0.4 mm pitch
December 2010 CD00271682 Rev 3 1/77
This is preliminary information on a new product now in development or undergoing evaluation. Details are subject to www.stericsson.com 4
change without notice.
2. PM3533
Device summary
Table 1. Device summary
Features Range
Temperature range
-20°C to +85°C
All specifications fulfilled
Temperature range
-30°C to +85°C
Functional
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Battery voltage range 2.6 V to 5.5 V
Package VFBGA 3.4 mm x 3.4 mm x 1.0 mm, 64 F8x8
DCDC1 - GSM PA operation
Output voltage range 50 mV to 5.5 V
Company restricted
Control voltage range 0 to 1.5 V
Maximum output current 1.5 A
Efficiency 90% (combined efficiency of Boost-Buck)
Efficiency 95% (Buck)
Large signal loop BW 230 kHz
DCDC1 – WCDMA PA operation
Output voltage range 50 mV to Vin-150 mV
Control voltage range 0 to 1.5 V
Maximum output current 600 mA
Efficiency 96% (Buck)
Large signal loop BW 230 kHz
DCDC2 for TRX
Output voltage (Vout) 1.35 V, 1.45 V or 1.65 V
Maximum output current 400 mA
Efficiency 90% (Buck)
PSRR ≤ 100 kHz 63 dB
Start-up time 10 μs
IDAC
Resolution 6 bits
Output current range 0 to 2.3 mA (Vout < 2.3 V)
2.5 V linear regulator
Output voltage 2.5 V
Maximum output current 60 mA
PSRR ≤ 100kHz 40 dB
2/77 CD00271682 Rev 3
11. PM3533 Overview
1 Overview
PM3533 is RF energy management and RF FE control device that contains following
functionalities: SMPS (Switched Mode Power Supply), Boost DC-DC converter, Buck DC-
DC converter, several regulators for internal use and one regulator for external use.
PM3533 also contains two antenna control IOs and two PA bias DAC outputs with the
possibility to use the second DAC output also as third GPIO.
Figure 5. PM3533 functional block diagram
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1.1 Main features
• Antenna controls and PA control signals
– Two antenna-tuning controls. Controls are programmable via the Serial Peripheral
Interface (SPI).
– One adjustable current reference for PA, with two multiplexed outputs.
– One of the outputs can also be used a static control output
• SMPS converter
– SMPS converter optimized for both GSM and WCDMA power amplifiers
– GSM mode bursts ramp-up/ramp-down capability
– Two different operating modes, which are controlled via Serial Peripheral Interface
(SPI). The operating modes are used to optimize SMPS efficiency at lower power
levels. Operation modes are explained in Section 1.1.1.
– Internal adjustable switching clock
– Dithering. Dithering adds deviation to switching frequency, which lowers switching
harmonic at output of SMPS. The deviation of the dithering is adjustable between
two different frequencies.
– Adjustable delay control for SMPS power switch drivers.
– Adjustable integrated loop-filter.
• Boost DC-DC converter
– Boost DC-DC converter regulates the battery voltage up to 4.0 V, 4.3 V, 5.3 V or
6 V.
CD00271682 Rev 3 11/77
12. Overview PM3533
– Three different operating modes are controlled by the Serial Peripheral Interface
(SPI). The operating modes are used to optimize the power converter efficiency at
lower power levels. The operation modes are explained in Section 1.1.1.
– Sampled soft-start, to enable smooth transient behavior on Boost DC-DC
converter output when starting the device or to continue from earlier idle (with its
output already at the correct level)
– Internal adjustable switching clock.
– Dithering. Dithering adds deviation to switching frequency, which lowers switching
harmonic at the output of the boost DC-DC converter. The deviation of the
dithering is adjustable between two different frequencies
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• Buck DC-DC converter
– The buck DC-DC converter down-regulates the battery voltage to 1.45 V.
The output voltage is adjustable also to 1.65 V or 1.35 V, another normal usage
set is 1.85 V or 1.55 V.
– Sampled soft-start, to enable smooth transient behavior on Buck DC-DC converter
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output when starting the device or to continue from earlier idle (with its output
already at the correct level).
– Internal adjustable switching clock.
– Dithering. Dithering adds deviation to switching frequency, which lowers switching
harmonic at the output of the buck DC-DC converter. The deviation of the dithering
is adjustable between two different frequencies.
• External regulators
– PM3533 has one regulator for external use. VHI regulates the battery voltage to
2.6 V or 2.5 V. VHI is enabled automatically after power-up with default output
voltage of 2.5V.
• Multiplexer
– PM3533 has one programmable multiplexer used to switch several analog node
voltages to PM3533 MUX1 I/O. The battery-monitoring block is also connected to
the multiplexer. Additionally MUX1 I/O can be used for self-testing
purposes.Multiplexer structure is shown in Figure 22.
• Serial Peripheral Interface (SPI) for PM3533 control.
• Battery monitoring block. This block enables battery voltage monitoring during the
operation and can also be used for self-testing purposes in production line.
• Under Voltage Lockout block. This block adds special protection by automatically
powering-down the boost power converter if abnormal power-downs occur at full power
mode.
• 40-bit OTP memory. One time programmable memory is needed to switch the
frequency tuning for all three converters. Also TSD (Thermal shutdown cell) can be
tuned with OTP memory.
• Thermal shutdown
– Thermal shutdown circuitry monitors the die temperature and fulfills a shutdown
when a specified temperature is reached. Thermal protection is enabled
automatically after power-up.
12/77 CD00271682 Rev 3
13. PM3533 Overview
1.1.1 Special power saving modes
DCDC converters have “low power” operation modes, which reduce the current
consumption in low power mode. The modes are controlled through the serial control
interface.
SMPS converter
1. “Low power” mode means that the size of power switches including the drivers are
reduced at lower power levels.
2. Power switches are divided into two parts. In high power levels both parts are used
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while in low power levels only 1/3 part of the switches and their drivers are used. The
decision on which mode is used comes from the base-band.
Boost DC_DC converter
Boost DC_DC converter includes two different power saving modes.
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1. “Full power” mode means that the boost DCDC converter at normal operational mode
with the full output power capability. Enabling of this is coming from the base-band.
2. The boost converter has also a “By-Pass” mode, which corresponds to 100% duty
cycle operation. In that mode the converter upper switch is turned on while the
converter lower switch is turned off. The boost by-pass function can be used in low
power levels by shutting down the boost-converter.
CD00271682 Rev 3 13/77
14. General specifications PM3533
2 General specifications
2.1 Absolute maximum ratings
Note: Absolute Maximum Ratings are those values beyond which damage to the device may
occur. Functional operation under these conditions is not implied. Always use the operating
conditions mentioned below when using the PM3533 in the application usage or similar kind
of, to achieve the correct functionality and performance (look at Section 2.2: Operating
conditions for further details).
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Table 2. Absolute maximum ratings
Symbol Parameter Min Typ Max Unit
IND_BOOST,
INPUT_SMPS,
Company restricted
Supply voltage level -0.3 9 V
VBATT,
VBB_VRX
SMPS_CTRL,
DATA, ENABLE,
Supply voltage level / control voltage level -0.3 2.7 V
SCLK, XRESET,
VREF, VXO
Tj Junction temperature 150 °C
TS Storage temperature -50 125 °C
Electrostatic discharge integrity for pins connected to battery,
ESDHBM -1000 +1000 V
HBM(1)
ESDCDM Electrostatic discharge protection, Charge device Model(2) -500 +500 V
1. Test conditions according to JESD22-A114.
2. Test conditions according to JESD22-C101.
2.2 Operating conditions
Table 3. Operation conditions
Symbol Parameter Min Typ Max Unit
General electrical characteristics
TOP Operating ambient temperature, all specifications fulfilled -20 +85 °C
TOPF Operating ambient temperature, functional -30 +85 °C
TJA Thermal resistance 50 °C/W
VBAT Battery voltage in normal operation mode 2.6(1) 5.5 V
VBATMAX Maximum battery voltage (due to charging) 4.8 5.5 V
VBAT1 Battery voltage in normal operation mode with Vbuck_boost 2.3 5.5 V
VBOOSTMAX Maximum up-converted voltage 6.5 V
14/77 CD00271682 Rev 3
15. PM3533 General specifications
Table 3. Operation conditions (continued)
Symbol Parameter Min Typ Max Unit
VUSB USB supply voltage 4.75 5 5.25 V
(2) (3)
IAD Admissible current per ball 800 mA
PMAX (4)
Power dissipation 800 mW
VBAT_Iload Battery current for PM3533 3 A
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VXO Digital power supply 2.1 2.5 V
VXO_Iload Digital power supply current load (UVL enabled) 120 µA
VIO Driver stage supply voltage 1.7 1.8 1.9 V
VIO_Iload Driver stage supply current Iload 3.5 18 mA
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Analog power supply DC 3.339 3.4 3.461
Vbuck_boost V
TRAN -0.1 +0.1
Vbuck_boost_Iload Analog power supply current load 25 mA
VREF Reference voltage 1.176 1.2 1.224 V
VLOW Digital input/output low 0 0.67 V
VINPUT,HIGH Digital input high 1.1 1.88 V
VOUTPUT,HIGH Digital output high 1.5 1.88 V
Ileak_vbat Leakage current from Vbat supply 120 µA
1. Analog power supply can be supplied from the Baseband Vbuck_boost or directly from the battery. When the Analog
supply is fed from battery, PM3533 cut-off voltage is 2.6 V (typical) otherwise cut-off is 2.3 V
2. Analog power supply range in the USB mode is according to the USB standard specification.
3. USB supply voltage as low as 4.0 V is allowed and even under transient conditions minimum of 3.67 V is possible for a
short period of time in the USB 3.0 specification.
4. Maximum that is allowed while taking into account internal losses at applicable load condition
CD00271682 Rev 3 15/77
16. Block diagram PM3533
3 Block diagram
PM3533 block diagram in the closed-loop mode environment is shown below.
Figure 6. PM3533 block diagram
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16/77 CD00271682 Rev 3
17. PM3533 Reference design schematic
4 Reference design schematic
Figure 7. Reference design schematic
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CD00271682 Rev 3 17/77
18. Company restricted
18/77
Figure 8.
Reference design schematic
USB application reference design schematic
CD00271682 Rev 3
PM3533
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19. PM3533 SMPS for PA
5 SMPS for PA
Figure 9 shows the simplified schematic of PM3533 step-down switching regulator with
basic functionality. The converter itself is a Buck converter with synchronous rectification.
The control is realized using the so-called voltage-mode control.
Figure 9. Step-down switching regulator based on Buck converter with voltage-mode control
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5.1 Closed-loop mode SMPS full power critical electrical
parameters
The most critical parameters are collected in Table 4.
Table 4. Electrical characteristics of SMPS full power mode
Symbol Parameter Min Typ Max Unit
Vin Input voltage range 2.3 6 V
Iout Max.output current range, bursted 2.5 A
Active current consumption with no
Iq 2.8 mA
load current, 9.5 MHz clock, Vctrl 0V
Efficiency with Iload1.2 A
Vinput=3.6V , Vout=3.2V 92 94 %
Freq 9.5MHz (coil loss included)
Max continuous load current in
2 A
+85 °C ambient temperature
CD00271682 Rev 3 19/77
20. SMPS for PA PM3533
Table 4. Electrical characteristics of SMPS full power mode (continued)
Symbol Parameter Min Typ Max Unit
Programmable switching frequency
2.1 12 MHz
(5-bit)
Power-up time 10 µs
5.2 Closed-loop mode SMPS section mode, critical electrical
parameters
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Table 5. Electrical characteristics of SMPS section mode
Symbol Parameter Min Typ Max Unit
Output current range. Continuous
Company restricted
Iout current over temp range and over life- 600 mA
time
Active current consumption with no
Iq load current, switching freq 9.5 MHz. 2.8 mA
SMPS_cntrl at 0 V
Efficiency with VBAT=3.6 V,
Iout = 80 mA, Vout = 0.95 V, 82 %
f = 2.2 MHz
Efficiency with VBAT=3.6V,
Iout = 285 mA,Vout=3.4 V, 95 %
f = 2.2 MHz
Max load current, continuous at
500 (TBD) mA
application level
20/77 CD00271682 Rev 3
21. PM3533 SMPS for PA
5.3 Operating parameters for SMPS converter
Characteristics to be met over the operating temperature range specified in Table 3:
Operation conditions unless otherwise stated.
Table 6. SMPS operation parameters
Symbol Parameter Min Typ Max Unit Notes
Voltage levels and regulation
Operating input voltage Accuracy: +/- 3%
Vi_oper1 5.82 6 6.18 V
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(full power mode) BOOST OUTPUT
Operating input voltage Accuracy: +/- 3%
Vi_oper2 5.15 5.3 5.45 V
(full power mode) BOOST OUTPUT
Operating input voltage Accuracy: +/- 3%
Vi_oper3 3.88 4 4.12 V
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(full power mode) BOOST OUTPUT
Operating input voltage Accuracy: +/- 3%
Vi_oper4 4.18 4.3 4.42 V
(full power mode) BOOST OUTPUT
Lowest power levels
Boost-converter is in by-
Operating input voltage Vbat min pass mode when SMPS
Vi_oper_low Vbat min V
(low power mode) - 350 mV input voltage is VBAT.
NOTE: Depends on the
application usage
smps_ctrl at (default gain setting)
0.023 0.066 0.073 0.080 Accuracy: +10.0/- 9.5%
0.03 0.088 0.095 0.103 Accuracy: +8.0/- 7.9%
0.1 0.326 0.318 0.311 Accuracy: +2.6/- 2.3%
0.4 1.269 1.272 1.277 Accuracy: +0.4/-0.2%
Vout
0.75 2.385 V (used as a ratio reference)
-[-30;+85]°C
1.00 3.195 3.243 Accuracy: +0.2/+0.05%
1.25 3.982 4.001 Accuracy: +0.65/+0.2%
1.55 4.964 5.097 Accuracy: +3.4/+0.7%
1.59 5.097 5.446 Accuracy: +7.7/+0.8%
1.62 5.198 5.461 Accuracy: +6.0/+0.9%
Look at smps_ctrl = 0.75V /
g1 3.18
Gain, Vout Vout = 2.385V above
g2 3.38 Optional (via bit control)
Iload=1.25A @Vi_oper2
Dropout Switching freq 9.5 MHz.
Included LC DCR/ACR
voltage at room Note: Minimum delay setting 370 420 mV
temp used @ Vi_oper2. values (see Section 5.4
values)
Iload=1.25A @Vi_oper2
Dropout
Switching frequency typ of Included LC DCR/ACR
voltage 270 350 mV
5.0 MHz @ Vi_oper2. (1) values (see Section 5.4
-[-30;+85]°C
values)
CD00271682 Rev 3 21/77
22. SMPS for PA PM3533
Table 6. SMPS operation parameters (continued)
Symbol Parameter Min Typ Max Unit Notes
@Vout max= 4.7 V
Note: Max currents are
Iload Load current 1.2 1.7 A defined during the GSM
burst. MAX value includes
PA current consumption in
worst case VSWR case.
Load current in GSM mode @Vout max= 3.6 V
when Boost-converter is by-
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Note: Max currents are
Iload_mode passed or PA max power is 2.5 A
defined during the GSM
achieved lower than
nominal SMPS Vout value. burst.
Note: PA is in power-down
mode.
Company restricted
No load current Includes internal clock and
Inol drivers and internal
consumption 3 3.5 mA
-[-30;+85]°C regulator quiescent
Switching freq 9.5MHz currents.
Converter in full power
mode
Note: PA is in power-down
mode and PM3533 is in
Iidle
Idle current 0.6 0.8 mA idle mode.
-[-30;+85]°C
Regulators are on.
Clock and drivers are off.
Clock range can be tuned with 5+
1-bit
6.5 13.5
Adjustable Internal clock (with the 1stset of reduction /
f_osc (4.7/7.9) (11.7 /14.9) MHz
increment bits)
(typical values) [2.1/5.3] [8.2/10.5]
[with the 2nd set of reduction /
increment bits]
7.1 10.0 Tuning range over temp, vbat and
f_osc_tuning_ corners.
[5.7, [9.3,
range OTP tuning range MHz [extended range available
4.2, 5.8,
dedicated control bits:
-[-30;+85]°C 3.3] 5.45] set 1, set2, set3]
f_osc_tuning_ Can be tuned with OTP
memory and with 4+1-bit
acc 160 230 350 kHz
current bias. Absolute
-[-30;+85]°C
accuracy.
Delta
Tuned OTP freq shift over
f_osc_shift 450 ΔkHz
vbat and temp.
-[-30;+85]°C
f_osc_d1 Selectable 2MHz dither
Dither deviation 1 1.9 2 MHz
-[-30;+85]°C deviation
f_osc_d2 Selectable 4MHz dither
Dither deviation 2 3.7 4 MHz
-[-30;+85]°C deviation
Vin 300mVpp perturbation.
Line_tr (2) Line transient response mVpp Trise/tfall=10 µs.
Iload = 1.25 A DC
22/77 CD00271682 Rev 3
23. PM3533 SMPS for PA
Table 6. SMPS operation parameters (continued)
Symbol Parameter Min Typ Max Unit Notes
Vin=Vbat range
Transients from 10 mA to
Load_tr (2) Load transient response (3)
mVpp
1250 mA.
Trise = Tfall = 13 µs.
PSRR sine wave perturbation
Mode1 Iout = 1200 mA 35 dB
[-30;+85]°C <10 kHz
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Efficiency in GSM-mode
Vin = 5 V. Iload 1.25 A @ Iload = 1.25A (GSM burst
[-30;+85]°C Vout, typ = 4.6 V 93 95 % rms current value). Full
Switching freq 9.5 MHz power mode
Company restricted
Vin = 3.6 V. Iload 0.52A @ SMPS full power mode,.
[-30;+85]°C Vout = 2 V, 89 92 % Boost converter by-passed
Switching freq 9.5 MHz (active mode)
Vin = 3.6 V. Iload 0.17 A @ SMPS Section mode,.
[-30;+85]°C Vout = 1.1 V, 79 83 % Boost converter by-passed
Switching freq 9.5 MHz (active mode)
Vin = 5.0 V. Iload 0.52 A @
SMPS full power mode in
[-30;+85]°C Vout = 2 V, 87.5 90.5 %
VUSB case
Switching freq 9.5 MHz
Vin = 5.0 V. Iload 0.17 A @
Vout = 1.1 V, SMPS section mode in
[-30;+85]°C 74 77 %
VUSB case
Switching freq 9.5 MHz
Efficiency in WCDMA-mode
Vin = 3.6 V. Iload 0.5 A @ SMPS Section power
[-30;+85]°C Vout, typ = 3.37 V 93 94.5 % mode, Boost by-passed
Switching freq 2.1 MHZ (active mode)
Vin = 3.6 V. Iload 0.15 @ SMPS section mode,
[-30;+85]°C Vout = 1.6V, 85 88 % Boost by-passed (passive
Switching freq 2.1 MHZ mode)
Vin = 3. 6V. Iload 0.045 @ SMPS section mode,
[-30;+85]°C Vout = 0.77 V, 62 68 % Boost by-passed (passive
Switching freq 2.1 MHZ mode) (4)
Vin = 5.0 V. Iload 0.5 A @
Vout, typ = 3.37 V SMPS section power mode
[-30;+85]°C 92 93.5 %
in VUSB case
Switching freq 2.1 MHZ
Vin = 5.0 V. Iload 0.15 @
SMPS section mode in
[-30;+85]°C Vout = 1.6V, 81 84 %
VUSB case
Switching freq 2.1 MHZ
Vin = 5.0 V. Iload 0.045 @
SMPS section mode in
[-30;+85]°C Vout = 0.77 V, 56 62 %
VUSB case
Switching freq 2.1 MHZ
CD00271682 Rev 3 23/77
24. SMPS for PA PM3533
Table 6. SMPS operation parameters (continued)
Symbol Parameter Min Typ Max Unit Notes
Idle start-up Initially: regulators on and
t_idle 5 μs
From idle to operation SMPS is off.
Device start-up
Initially: PM3533 is
t_on From shutdown to 15 μs
shutdown.
operation.
1. Minimum delay setting used
2. Transient response requirement clarification is illustrated in Figure 10.
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3. These parameters are verified in system measurements in closed-loop mode RF engine platform. It should not inhibit
GSMK modulation for burst power-up/down sequences
4. BOOST by-passed active mode means that BOOST serial switch is open by having charge pump activated. BOOST by-
passed passive mode means that also charge pump is disabled.
Company restricted
24/77 CD00271682 Rev 3
25. PM3533 SMPS for PA
Figure 10. Transient response requirement
tr<(mV)
overshoot
Vout Vout +/-tolerance
overshoot
Tr (mV) Note: During rise or fall recovery times, there
must be no unstable behaviour. The fall
T_rec recovery time is dependant on Cout and load
current
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Load rise time = fall = Xus Vin = Vout = constant.
Load transient
Load step = Iload min to
Iloadmax
Line transient Line fall time = rise = Xus Line step: 300mV. xV < Vin < xV
Company restricted
Iload = constant = Mode1/Mode2
5.4 Critical external components for SMPS
Inductor
Table 7. SMPS inductor specification
Symbol Parameter Min Typ Max Notes
L Inductance (µH) 1
Peak current value when inductance is within
Ira Rated current 1 (A) 1.5 ± 20 % tolerance, compared to measured typical
value at 50% Irated.
Rdc DC resistance (mohm) 60 Rdc is measured with Ira bias current
Coil inductance compared to nominal value in
Inductance tolerance
nominal temperature should not change more
Ltemp over temperature -5 +5
than specified over the operating temp. range.
range (%)
Measured with Ira bias current
Measured with Ira bias current and Sf switching
PL Power Loss (mW) 160
freq.
Magnetic shielding TBD
CD00271682 Rev 3 25/77
26. SMPS for PA PM3533
Capacitors
Table 8 lists the specification for SMPS capacitor.
Table 8. SMPS capacitor specification
Parameter Specifications
Size (target) 0603
Dielectric X5R/X7R
Temperature range –30°C to +85°C
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Rated voltage 10 V DC
Capacitance (typical) 0V Bias 470 nF +/-10 %
Max. Capacitance change 0-5V DC Bias, over
From initial value +/-10%
temperature range, after aging
Company restricted
ESR @ 9 MHz (max) 20 mohm
Maximum operating voltage 5.5 V DC
Serial Inductance max. 1.8 nH
5.4.1 SMPS performance with critical components
Table 9. SMPS performance with critical components
Symbol Parameter Typ Unit Notes
Cout ESR < 20 mohm, L=1 µH, Iload 10 mA to 1200 mA,
Vo_ripple Ripple voltage 3.1 mVpp
Switching frequency 9 MHz
26/77 CD00271682 Rev 3
27. PM3533 Boost DC-DC converter
6 Boost DC-DC converter
Boost DC-DC-converter’s design topology is the same as SMPS. DC-DC-converter’s output
voltage control is done with reference voltage and dedicated control bits.
Figure 11. Boost converter simplified block diagram
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6.1 Boost full power electrical parameters
Note: The most critical parameters are collected in Table 10 and Table 13. These tables are
shown separately to ease the reading and best define the converter most critical
parameters.
Table 10. Boost full power mode general electrical characteristics
Symbol Parameter Min Typ Max Unit
Vin Input voltage range 2.3 4.4 V
Vout1 Output voltage range, no load 5.3 V
Vout2 Output voltage range, no load 4.0 V
Vout3 Output voltage range, no load(1) 6.0 V
Vout4 Output voltage range, no load 4.3 V
Iout Boost input current range, bursted 3 A
Active current consumption with no load current, full power
Iq mode, 7 MHz clock, over temperature and Vbat range 14 26 mA
(smps_ctrl=0V)
CD00271682 Rev 3 27/77