Philips Semiconductors
Preliminary specification
Controller for power supply
and battery management
CONTENTS
1
1.1
1.2
1.3
1.4
2
3
4
5
6
7
8
8.1
8.1.1
8.1.2
8.1.3
8.1.4
8.1.5
8.2
8.3
8.4
8.5
8.5.1
8.5.2
FEATURES
System control
Supply voltage generation
Battery management
Subscriber identity module card interface
APPLICATIONS
GENERAL DESCRIPTION
QUICK REFERENCE DATA
ORDERING INFORMATION
BLOCK DIAGRAM
PINNING
FUNCTIONAL DESCRIPTION
On/off control
Operating states
Reset generation
Watchdog timer
Automatic restart after battery removal
Debounce filters
Serial interface (I
2
C-bus)
Interrupt controller (INT)
Power supply modules
Main battery charger (MBC)
Supported charger plugs
External components
8.6
8.7
8.8
8.9
8.10
8.11
8.12
8.13
9
10
11
12
13
13.1
13.2
13.3
13.4
13.5
14
15
16
17
PCF50603
Backup battery charger (BBC)
SIM card interface (SIMI)
Battery voltage monitor (BVM)
Temperature high sensor (TS)
Real time clock (RTC)
Pulse-width modulator (PWM1 and PWM2)
LED modulator (LED1 and LED2)
General purpose outputs (GPO)
LIMITING VALUES
CHARACTERISTICS
APPLICATION INFORMATION
PACKAGE OUTLINE
SOLDERING
Introduction to soldering surface mount
packages
Reflow soldering
Wave soldering
Manual soldering
Suitability of surface mount IC packages for
wave and reflow soldering methods
DATA SHEET STATUS
DEFINITIONS
DISCLAIMERS
PURCHASE OF PHILIPS I
2
C COMPONENTS
2003 Oct 31
2
Philips Semiconductors
Preliminary specification
Controller for power supply
and battery management
1
1.1
FEATURES
System control
PCF50603
•
Serial 400 kHz I
2
C-bus interface to transfer the control
data between the PCF50603 and the host controller
•
On/Off Control (OOC) module to control the power
ramp-up and ramp-down sequences for the handset.
Furthermore it determines the supported system
operating states: NOPOWER, SAVE, STANDBY and
ACTIVE to realize minimum power consumption in all
states.
•
Internal Current Controlled Oscillator (CCO) generates
the internal high clock frequency. The generated
frequency is typically 3.6 MHz.
•
An accurate 32.768 kHz oscillator. This oscillator can be
used to supply the 32 kHz clock domains in the system,
to improve the accuracy of the internal clock and to
reduce the power consumption of the PCF50603.
•
Interrupt controller (INT) that generates the interrupt
request for the host controller. All interrupt sources can
be masked.
•
The Real Time Clock (RTC) module uses the 32 kHz
clock to provide time reference and alarm functions with
wake up control for the handset
•
One accessory recognition pin with debounce filters and
capability to start up the system (REC1_N)
•
One accessory detection comparator input pin with
programmable threshold levels that issues an interrupt
when an accessory is connected (REC2_N)
•
Two Pulse-Width Modulators (PWM1 and PWM2) which
generate an output voltage with programmable duty
cycle and frequency
•
Two LED modulators (LED1 and LED2) capable of
generating eight different blinking patterns with eight
different repetition periods
•
Three General Purpose Outputs (GPO) programmable
via the serial interface. The GPOs are open-drain
NMOST outputs, capable of handling the full battery
voltage range and high sink currents. The GPOs can be
programmed to be continuously active LOW or 3-state,
in addition the GPO outputs can be controlled by the
LED or PWM modulators.
•
Watchdog timer that can be activated by software.
1.2
Supply voltage generation
•
The power supplies have three programmable activity
modes (OFF, ECO and ON). In the ACTIVE state, the
operation modes can be selected by the two external
pins PWREN1 and PWREN2.
•
One Charge Pump (CP) with programmable output
voltage for the supply of white or blue LEDs
•
Two 100 mA LDO voltage regulators (RF1REG and
RF2REG) with fixed output voltage (mask
programmable) for RF supplies. RF1REG and RF2REG
are optimized for low noise, high power supply rejection
and excellent load regulation.
•
Two 150 mA LDO voltage regulators (D1REG and
D2REG) optimized for small external capacitors.
D1REG provides a programmable output voltage,
D2REG provides a fixed output voltage (mask
programmable).
•
One 150 mA LDO voltage regulator (IOREG) dedicated
for the supply of the I/O pads. IOREG has a fixed output
voltage (mask programmable) and is optimized for a
small external capacitor.
•
One 100 mA LDO voltage regulator (LPREG) with fixed
output voltage (mask programmable). In low power
operation (ECO) mode LPREG can be used to
permanently supply parts in the system in all activity
states.
•
One 100 mA LDO voltage regulator (D3REG) with
programmable output voltage. D3REG is optimized for a
small external capacitor.
•
One 250 mA LDO voltage regulator (HCREG) with
programmable output voltage. The high current HCREG
is optimized for applications like hands-free audio.
•
D1REG, D2REG, D3REG, IOREG and LPREG support
ECO mode. In this mode the output current is limited to
1 mA and the internal power consumption is reduced
significantly.
•
The Temperature high Sensor (TS) provides thermal
protection for the whole chip
•
Enhanced ESD protection on all pins that connect to the
main battery pack
•
Microphone bias voltage generator with low noise and
high power supply rejection (MBGEN).
2003 Oct 31
3
Philips Semiconductors
Preliminary specification
Controller for power supply
and battery management
1.3
Battery management
1.4
PCF50603
Subscriber identity module card interface
•
Operates from a three cell NiCd/NiMH or a one cell
Li-ion battery pack
•
Battery Voltage Monitor (BVM) to detect a too low main
battery voltage with programmable threshold levels.
A low battery condition is reported via the interrupt
mechanism.
•
Charger control. There is an option between two
different charger control functions, depending on the
configuration:
– Configuration Constant Current Constant Voltage
(CCCV). Linear charger control supporting Li-ion as
well as NiCd/NiMH battery types for a wide range of
battery capacities.
– Configuration BATMAX comparator that compares
the battery voltage against a programmable
threshold voltage. This function can be activated by
software and is used to detect the end-of-charge.
•
Supports the use of a backup battery that powers at
empty main battery situations. The backup battery is
used to supply the RTC, the internal state and the
LPVDD supply in it’s ECO mode. Goldcaps, Li and Li-ion
cells are supported.
•
Includes a Backup Battery Charger (BBC).
A rechargeable backup battery or backup capacitor can
be charged from the main battery. For charging, a
programmable constant voltage mode is supported.
•
Two different modes that can be selected with the
Subscriber Identity Module card Interface (SIMI):
– Transparent interface including an arbiter and signal
level translators
– Subscriber Identity Module (SIM) card interface with
integrated sequencer, arbiter and signal level
translators. The sequencer supports and controls
card activation and de-activation, warm reset and
controlled clock stop for power-down modes.
•
Dedicated SIM supply (SIMREG). Supports
3.0 V and 1.8 V cards, including a power saving ECO
mode for the power-down mode of the SIM card.
•
Enhanced ESD protection on all pins that connect to the
SIM card contact pins.
2
APPLICATIONS
•
Mobile phones.
3
GENERAL DESCRIPTION
The PCF50603 is a highly integrated solution for power
supply generation, battery management including
charging and a SIM card interface including supply
generation. The device is controlled by a host controller via
a 400 kHz I
2
C-bus serial interface.
4 QUICK REFERENCE DATA
V
SS
= REFGND = GND = 0 V; T
amb
=
−40 °C
to +85
°C;
unless otherwise specified.
SYMBOL
V
BAT
V
SAVE
V
CHG
PARAMETER
main battery input voltage
backup battery input voltage
charger input voltage
DC
rectified sine wave;
100 Hz to 120 Hz; note 1
V
CHGMIN
f
CLKCCO
Note
1. Not allowed in CCCV configuration.
minimum charger voltage
enabling MBC module
high clock frequency
32 kHz clock available
CONDITIONS
MIN.
0
0
0
0
−
3.42
TYP.
−
−
−
−
2.7
3.6
MAX.
5.7
5.7
15.0
20.0
−
3.78
UNIT
V
V
V
V
V
MHz
2003 Oct 31
4
DSP and ARM Processors
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