Fairchild FXLP4555MPX 1.8v / 3.0v sim card power supply and level shifter Datasheet

FXLP4555
1.8V / 3.0V SIM Card Power Supply and Level Shifter
Features
Description



Supports 1.8V or 3.0V SIM Cards

ESD Protection: 8kV (Human Body Model,
According to ISO-7816 Specifications)


Supports Clock  5MHz
The FXLP4555 is a level-shifter analog circuit designed
to translate the voltages between a SIM card and an
external baseband. A built-in LDO-type DC-DC
converter allows the FXLP4555 to drive 1.8V and 3.0V
SIM cards. The device fulfills the ISO7816-3 smart-card
interface standard as well as GSM 11.11 (11.12 and
11.18) and 3G mobile requirements (IMT-2000/3G UICC
standard). The EN pin enables a low-current Shutdown
Mode that extends battery life. The card power supply
voltage (VCC_C) is selected using a single pin (VSEL).

Low-Profile 3x3mm MLP-16 Package
LDO Supplies >50mA Under 1.8V and 3.0V
Built-in Pull-up Resistor for I/O Pin in Both
Directions
Supports “Clock Stop” Power Management per
ISO7816-3 Specifications
Applications

SIM Card Interface Circuit for 2G, 2.5G, and 3G
Mobile Phones



Identification Module
Smart Card Readers
Wireless PC Cards
Ordering Information
Part Number
FXLP4555MPX
Operating
Temperature Range
Top
Mark
-40 to +85°C
FXLP
4555
© 2010 Fairchild Semiconductor Corporation
FXLP4555 • Rev. 1.0.0
Package
16-Lead,MLP,Quad,JEDEC
MO-220,3MM Square
Packing Method
3000 Units
on Tape & Reel
www.fairchildsemi.com
FXLP4555 — 1.8V / 3.0V SIM Card Power Supply and Level Shifter
May 2011
Figure 1.
Typical Application
Functional Block Diagram
VBAT
5
EN
1
VSEL
2
LDO:
1.8V/3V
at 50mA
7
VCC_C
9
RST_C
GND
VCCA
VCCA 3
VCC_C
Unidirectional
Driver
RST_H 14
FXLP4555 — 1.8V / 3.0V SIM Card Power Supply and Level Shifter
Application Diagram
GND
Unidirectional
Driver
CLK_H 13
11 CLK_C
GND
I/O_H
15
18K
Bidirectional NpassGate
With Edge Rate
Accelerators
14K
8
I/O_C
GND
10
GND
Figure 2.
© 2010 Fairchild Semiconductor Corporation
FXLP4555 • Rev. 1.0.0
Block Diagram
www.fairchildsemi.com
2
16
EN
1
VSEL
2
VCCA
3
NC
4
15
14
13
12
NC
11 CLK_C
FXLP4555
Exposed DAP
(GND)
10
GND
9 RST_C
5
6
7
8
Figure 3. Pin Assignments (Top View)
Pin Definitions
Pin
Name
Type
Description
1
EN
INPUT
Power-Down Mode. EN=LOW → low-current Shutdown Mode activated. EN=HIGH →
normal operation. A LOW level on this pin resets the SIM interface, switching off the
VCC_C.
2
VSEL
INPUT
The signal present on this pin programs the SIM_VCC value:
VSEL=LOW → SIM_VCC=1.8V; VSEL=HIGH → SIM_VCC=3V.
3
VCCA
4
NC
5
VBAT
6
NC
POWER
Connected to the baseband power supply; this pin configures the level shifter input
stage to accept signals from the baseband. A 0.1µF capacitor is used to bypass the
power supply voltage. When VCCA is below 1.1V (typical), the VCC_C (SIM Card VCC) is
disabled and FXLP4555 enters Shutdown Mode.
FXLP4555 — 1.8V / 3.0V SIM Card Power Supply and Level Shifter
Pin Configuration
No connect. It is recommended to solder to PCB GND.
POWER
LDO converter supply input. The input voltage ranges from 2.7V to 5.5V. This pin
needs to be bypassed by a 0.1µF capacitor.
No connect. It is recommended to solder to PCB GND.
7
VCC_C
POWER
Connected to the SIM card power supply pin. An internal LDO converter is
programmable by the external baseband to supply either 1.8V or 3.0V output voltage.
An external 1.0µF minimum ceramic capacitor must be connected across VCC_C and
GND. During a normal operation, the VCC_C voltage can be set to 1.8V, followed by a
3.0V value, or can start directly at either of these values.
8
I/O_C
INPUT/
OUTPUT
Handles the connection to the serial I/O of the card connector. A bi-directional level
translator adapts the serial I/O signal between the card and the baseband. A 14kΩ
(typical) pull-up resistor provides a high-impedance state for the SIM card I/O link.
9
RST_C
OUTPUT
Connected to the RESET pin of the card connector. A level translator adapts the
external reset (RST) signal to the SIM card.
10
GND
GROUND
Ground reference for the integrated circuit and associated signals. Care must be
taken to avoid voltage spikes when the device operates in normal operation.
11
CLK_C
OUTPUT
Connected to the CLOCK pin of the card connector. The CLOCK (CLK) signal comes
from the external clock generator; the internal level shifter adapts the voltage defined
for the VCC_C.
12
NC
13
CLK_H
No connect. It is recommended to solder to PCB GND.
INPUT
© 2010 Fairchild Semiconductor Corporation
FXLP4555 • Rev. 1.0.0
The clock signal, coming from the external controller, must have a duty cycle within
the range defined by the specification (typically 50%). The built-in level shifter
translates the input signal to the external SIM card CLK input.
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3
Pin
Name
Type
14
RST_H
INPUT
15
I/O_H
INPUT/
OUTPUT
16
NC
17
Exposed
DAP
Description
The RESET signal present at this pin is connected to the SIM card through the
internal level shifter, which translates the level according to the VCC_C programmed
value.
This pin is connected to the baseband. A bidirectional level translator adapts the serial
I/O signal between the smart card and the baseband. A built-in constant 18kΩ (typical)
resistor provides a high-impedance state when not activated.
No connect. It is recommended to solder to pcb GND.
Ground
© 2010 Fairchild Semiconductor Corporation
FXLP4555 • Rev. 1.0.0
Must be soldered to PCB ground plane.
FXLP4555 — 1.8V / 3.0V SIM Card Power Supply and Level Shifter
Pin Definitions (Continued)
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4
Stresses exceeding the absolute maximum ratings may damage the device. The device may not function or be
operable above the recommended operating conditions and stressing the parts to these levels is not recommended.
In addition, extended exposure to stresses above the recommended operating conditions may affect device reliability.
The absolute maximum ratings are stress ratings only. TA=+25°C.
Symbol
Parameter
Min.
Typ.
Max.
Unit
VBAT
LDO Power Supply Voltage
-0.5
VBAT
6.0
V
VCCA
Power Supply from Baseband Side
-0.5
VCCA
6.0
V
VCC_C
External Card Power Supply
-0.5
VCC_C
6.0
V
VIN
Digital Input Pin Voltage
-0.5
VIN
VCCA+0.5,
but <6.0
V
IIN
Digital Input Pin Current
-5
+5
mA
VCCA+0.5,
but <6.0
V
+10
mA
SIM_VCC+
0.5<6.0
V
mA
VOUT
Digital Output Pin Voltage
-0.5
VOUT
IOUT
Digital Output Pin Current
-10
VOUT_SIM
SIM Card Output Pin Voltage
-0.5
IOUT_SIM
SIM Card Output Pin Current(1)
15
VOUT
PD
Power Dissipation at TA=+85°C
440
mW
ΘJA
Thermal Resistance, Junction-to-Air
72
°C/W
TA
Operating Ambient Temperature Range
-40
+85
°C
TJ
Operating Junction Temperature Range
-40
+125
°C
+125
°C
-65
+150
°C
TJMAX
Maximum Junction Temperature
TSTG
Storage Temperature Range
SIM Card Pins
(7,8,9,10,11)
ESD
Electrostatic
Discharge
Capability
Human Body
Model,
JESD22-A114
R=1500Ω,
All Other Pins
C=100pF
SIM Card Pins
Charged
Device Model, (7,8,9,10,11)
JESD22-C101 All Other Pins
Moisture Sensitivity Level
8000
2000
FXLP4555 — 1.8V / 3.0V SIM Card Power Supply and Level Shifter
Absolute Maximum Ratings
V
2000
600
1
Level
Notes:
1. Internally limited.
2. Meets or exceeds JEDEC specification EIA/JESD78 IC latchup test.
© 2010 Fairchild Semiconductor Corporation
FXLP4555 • Rev. 1.0.0
www.fairchildsemi.com
5
TA=-40°C to +85°C. Device meets the specifications after thermal equilibrium has been established when mounted in
a test socket or printed circuit board with maintained transverse airflow greater than 500lfpm. Electrical parameters
are guaranteed only over the declared operating temperature range. Functional operation of the device exceeding
these conditions is not implied. Device specification limit values are applied individually under normal operating
conditions and not valid simultaneously.
Symbol
Parameter
Condition
Min.
Typ.
Max.
Unit
Power Supply Section
VBAT
Power Supply
2.7
I VBAT
Operating Current
ICC=0mA, VBAT > 3.0V if VSEL=1 or
VBAT > 2.7V if VSEL=0
I VBAT_SD
Shutdown Current
EN=Low
VCCA
Operating Voltage
(3)
IVCCA
Operating Current
IVCCA_SD
Shutdown Current
VCCA
16
1.65
fCLK=1MHz
7
EN=Low
Under-Voltage
Lockout
0.6
VSEL=High, VBAT=3.0V,
IVCC_C=50mA
VCC_C
IVCC_C_SC
SIM Card Supply
Voltage
Short-Circuit Current
5.5
V
25
µA
3
µA
5.50
V
12
µA
1
µA
1.5
V
V
2.8
VSEL=High, VBAT=3.3V – 5.5V,
IVCC_C=0mA - 50mA
2.8
3.0
3.2
VSEL=Low, VBAT=2.7V – 5.5V,
IVCC_C=0mA - 50mA
1.7
1.8
1.9
175
mA
0
VCCA
V
VCC_C Shorted to Ground, TA=25°C
Digital Input / Output Section (CLK, RST, I/O, EN, VSEL)
VIN
Input Voltage Range
EN, VSEL, RST_H, CLK_H, I/O_H
Input Current
EN, VSEL, RST_H, CLK_H
-100
100
nA
VIH
High Level Input
Voltage
RST_H, CLK_H, EN, VSEL
0.7 •
VCCA
VCCA
V
VIL
Low Level Input
Voltage
0.2 *
VCCA
V
IIH, IIL
RST_H, CLK_H
EN, VSEL
VOH_I/O
High Level Output
Voltage
I/O_C=VCC_C, IOH_I/O=-20µA
VOL_I/O
Low Level Output
Voltage
I/O_C=0 V, IOL_I/O=200µA
IIH
High Level Input
Current
I/O
IIL
Low Level Input
Current
I/O
Rpu_I/O_H
I/O Pull-Up Resistor
0
0.4
0.7 •
VCCA
VCCA
V
0
0.4
V
-20
20
µA
1.0
mA
24
kΩ
12
18
FXLP4555 — 1.8V / 3.0V SIM Card Power Supply and Level Shifter
Electrical Characteristics
Continued on the following page…
© 2010 Fairchild Semiconductor Corporation
FXLP4555 • Rev. 1.0.0
www.fairchildsemi.com
6
Symbol
Parameter
Condition
Min.
Typ.
Max.
Unit
0.9 •
VCC_C
VCC_C
V
0
(4)
SIM Interface Section
Output RST_C VOH at IRST_C=-20µA
VCC_C =+3.0V
(VSEL=HIGH)
RST_C
Output RST_C VOL at IRST_C=+200µA
0.4
V
Output RST_C Rise Time at
COUT=30pF (10% - 90%)(3)
1
µs
Output RST_C Fall Time at
COUT=30pF (90% - 10%)(3)
1
µs
0.9 •
VCC_C
VCC_C
V
0
0.4
V
Output RST_C Rise Time at
(3)
COUT=30pF (10% - 90%)
1
µs
Output RST_C Fall Time at
(3)
COUT=30pF (90% - 10%)
1
µs
Output RST_C VOH at IRST_C=-20µA
VCC_C =+1.8V
(VSEL=LOW)
VCC_C =+3.0V
(VSEL=HIGH)
CLK_C
VCC_C =+1.8V
(VSEL=LOW)
Output RST_C VOL at IRST_C=+200µA
Output Duty Cycle
40
Maximum Output Frequency
5
Output VOH at ICLK_C=-20µA
0.9 •
VCC_C
VCC_C
V
0
0.4
V
Output CLK_C Rise Time at
COUT=30pF (10% - 90%)(3)
18
ns
Output CLK_C Fall Time at
COUT=30pF (90% - 10%)(3)
18
ns
Output VOL at ICLK_C=+200µA
60
%
MHz
Output Duty Cycle
40
Maximum Output Frequency
5
Output VOH at ICLK_C=-20µA
0.9 •
VCC_C
VCC_C
V
0
0.4
V
Output CLK _C Rise Time at
COUT=30pF (10% - 90%)(3)
18
Ns
Output CLK_C Fall Time at
COUT=30pF (90% - 10%)(3)
18
ns
Output VOL at ICLK_C=+200µA
60
FXLP4555 — 1.8V / 3.0V SIM Card Power Supply and Level Shifter
Electrical Characteristics (Continued)
%
MHz
Continued on the following page…
© 2010 Fairchild Semiconductor Corporation
FXLP4555 • Rev. 1.0.0
www.fairchildsemi.com
7
Symbol
Parameter
VCC_C=+3.0V
(VSEL=HIGH)
I/O_C
VCC_C=+1.8V
(VSEL=LOW)
Rpu_I/O_C
Condition
Min.
Typ.
Max.
Unit
Output VOH at II/O_C=-20µA, VI/O=VDD
0.8 •
VCC_C
VCC_C
V
Output VOL at II/O_C=+1mA, VI/O=0V
0
0.4
V
I/O_C Rise Time at COUT=30pF
(10% - 90%)(3)
1
µs
I/O_C Fall Time at COUT=30pF
(90% - 10%)(3)
1
µs
Output VOH at II/O_C=-20µA, VI/O=VDD
0.8 •
VCC_C
VCC_C
V
Output VOL at II/O_C=+1mA, VI/O=0V
0
0.3
V
I/O_C Rise Time at COUT=30Pf
(3)
(10% - 90%)
1
µs
I/O_C Fall Time at COUT=30pF
(3)
(90% - 10%)
1
µs
18
kΩ
Card I/O Pull-Up
Resistor
10
14
Notes:
3. Guaranteed by design over the specified operating temperature range.
4. All the dynamic specifications (AC specifications) are guaranteed by characterization over the specified operating
temperature range, unless otherwise indicated.
© 2010 Fairchild Semiconductor Corporation
FXLP4555 • Rev. 1.0.0
FXLP4555 — 1.8V / 3.0V SIM Card Power Supply and Level Shifter
Electrical Characteristics (Continued)
www.fairchildsemi.com
8
150
VBAT = 5.5V
I VCC_C_SC (mA)
130
VBAT = 2.7V
110
90
70
50
‐50
‐30
‐10
10
30
50
70
90
Temperature (°C)
Figure 4. Short-Circuit Current ,(IVCC_C_SC) vs.
Temperature VCC_C=1.8V (VSEL=LOW)
Figure 5. Short-Circuit Current, (IVCC_C_SC) vs.
Temperature VCC_C=3.0V (VSEL=HIGH)
25
25
20
I VBAT (µA)
I VBAT (µA)
20
VBAT = 5.5V
15
VBAT = 3.1V
15
VBAT = 5.5V
VBAT = 2.7V
10
10
FXLP4555 — 1.8V / 3.0V SIM Card Power Supply and Level Shifter
Typical Performance Characteristics
5
5
‐50
‐50
0
50
‐30
‐10
10
30
50
70
90
TEMPERATURE ( °C)
TEMPERATURE ( °C)
Figure 6. IVBAT vs. Temperature at VCC_C=3.0V
(VSEL=HIGH)
© 2010 Fairchild Semiconductor Corporation
FXLP4555 • Rev. 1.0.0
Figure 7. IVBAT vs. Temperature at VCC_C=1.8V
(VSEL=LOW)
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9
Card Supply Converter
Level Shifters
The FXLP4555 interface DC-DC converter is a Low
Dropout (LDO) voltage regulator capable of supplying a
current in excess of 50mA under 1.8V or 3.0V.
Quiescent current is typically lower than 20µA (see
Figure 6 and Figure 7). VSEL is a select input, allowing
a logic level signal to select a regulated voltage of 1.8V
(VSEL = LOW) or 3.0V (VSEL = HIGH).
The level shifters accommodate any voltage difference
between the Baseband (BB) Processor (1.65V – 5.5V)
and the SIM card (1.8V or 3V). The RESET and CLOCK
level shifters are uni-directional (from BB to SIM).
The bidirectional I/O line automatically adapts the
voltage difference between the baseband and the SIM
card in both directions. In addition, with the pull-up
resistor, an active edge rate accelerator circuit (see
Figure 9) provides a fast charge of the stray
capacitance, yielding a rise time within the ISO7816-3
specifications.
FXLP4555 has a shutdown input (EN) that allows it to
turn off or turn on the regulator output. Figure 8 shows a
simplified view of the voltage regulator. The VCC_C output
is internally current limited and protected against short
circuits. The short-circuit current (IVCC_C_SC) is constant
over the SIM Card VCC and VBAT, while it varies with
operating temperature, typically in the range of 90mA to
140mA (Figure 4 and Figure 5).
The typical waveform provided in Figure 10 shows how
the accelerator operates. Two distinct slew rates are
observed. From 0V to approximately VCC/2, the slew
rate is the RC time constant of the pull-up resistor and
the stray capacitance. When the input slope crosses the
VCC/2 threshold, the edge rate accelerator is activated,
resulting in the faster slew rate from approximately
VCC/2 to VCC as depicted in Figure 10.
To guarantee a stable LDO, the VCC_C output is
connected to a 1.0µF bypass ceramic capacitor to
ground. At the input, VBAT is bypassed to ground with a
0.1µF ceramic capacitor.
VBAT
VCC_C
EN
VSEL
Figure 8.
Simplified Block Diagram of the LDO
Voltage Regulator
Figure 9.
Figure 10.
SIM_IO Typical Rise and Fall Times with
Stray Capacitance > 30pF
(33pF Capacitor Connected on the Board)
© 2010 Fairchild Semiconductor Corporation
FXLP4555 • Rev. 1.0.0
FXLP4555 — 1.8V / 3.0V SIM Card Power Supply and Level Shifter
Application Information
Basic I/O Line Interface
Figure 11. Typical Schmitt Trigger Characteristics
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10
Input Schmitt Triggers
Printed Circuit Board (PCB) Layout
All the logic input pins (except I/O_H and I/O_C) have
built-in Schmitt trigger circuits to prevent uncontrolled
operation. Typical dynamic characteristics of the related
pins are depicted in Figure 11.
Careful layout routing should be applied to achieve
efficient operating of the device in its mobile or portable
environment and to fully exploit its performance.
The bypass capacitors must be connected as close as
possible to the device pins (VCC_C, VCCA, or VBAT) to
reduce possible parasitic behaviors (ripple and noise). It
is recommended to use ceramic capacitors.
The output signal is guaranteed to go HIGH when the
input voltage is above 0.7 x VDD and go LOW when the
input voltage is below 0.4V. See Electrical
Characteristics section.
The exposed pad should be connected to ground as
well as the unconnected pins (NC). A relatively large
ground plane is recommended.
Shutdown Operating
To save power, it is possible to put the FXLP4555 in
Shutdown Mode by setting the pin EN LOW. The device
enters Shutdown Mode automatically when VCCA goes
lower than 1.1V typically.
Clock Stop
Section 6.3.2 of ISO7816-3 identifies the “Power
Management” feature of Clock Stop. For cards
supporting Clock Stop, when the interface device
expects no transmission from the card and when I/O
has remained at state H for at least 1,860 clock cycles
(delay tg), then according to Figure 13, the interface
device may stop the clock on CLK (at time te) while the
SIM card VCC remains powered and RST at state H.
ESD Protection
The FXLP4555 SIM interface features an HBM ESD
voltage protection in excess of 7kV for all the SIM pins
(IO_C, CLK_C, RST_C, VCC_C and GND). All the other
pins (Host side) sustain at least 2kV. The HBM ESD
voltage required by the ISO7816 standard is 4kV.
Figure 12.
FXLP4555 — 1.8V / 3.0V SIM Card Power Supply and Level Shifter
Applications Information (Continued)
Clock Stop
The FXLP4555 supports the above description of Clock
Stop per ISO7816-3 specifications.
When the clock is stopped (from time te to time tf), CLK
shall be maintained either at state H or at state L,
according to the clock stop indicator X defined in section
8.3 of the ISO7816-3 specification.
At time tf, the interface device restarts the clock and the
information exchange on I/O may continue after at least
700 clock cycles (at time tf + th).
© 2010 Fairchild Semiconductor Corporation
FXLP4555 • Rev. 1.0.0
www.fairchildsemi.com
11
FXLP4555 — 1.8V / 3.0V SIM Card Power Supply and Level Shifter
Physical Dimensions
Figure 13.
16-Lead, Molded Leadless Package (MLP), QUAD, JEDEC MO-220, 3mm Square
Package drawings are provided as a service to customers considering Fairchild components. Drawings may change in any manner
without notice. Please note the revision and/or date on the drawing and contact a Fairchild Semiconductor representative to verify or
obtain the most recent revision. Package specifications do not expand the terms of Fairchild’s worldwide terms and conditions, specifically the
warranty therein, which covers Fairchild products.
Always visit Fairchild Semiconductor’s online packaging area for the most recent package drawings:
http://www.fairchildsemi.com/packaging/MLP16B.html.
For current tape and reel specifications, visit Fairchild Semiconductor’s online packaging area:
http://www.fairchildsemi.com/packaging/3x3MLP16_Pack_TNR.pdf.
© 2010 Fairchild Semiconductor Corporation
FXLP4555 • Rev. 1.0.0
www.fairchildsemi.com
12
FXLP4555 — 1.8V / 3.0V SIM Card Power Supply and Level Shifter
© 2010 Fairchild Semiconductor Corporation
FXLP4555 • Rev. 1.0.0
www.fairchildsemi.com
13
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