INTERSIL ISL54053IRUZ-T

ISL54053
®
Data Sheet
September 25, 2007
Ultra Low ON-Resistance, Low Voltage,
Single Supply, SPDT Analog Switch
The Intersil ISL54053 device is a low ON-resistance, low
voltage, bidirectional, single pole/double throw (SPDT)
analog switch designed to operate from a single +1.8V to
+5.5V supply. Targeted applications include battery powered
equipment which benefit from low rON (0.8Ω) and fast
switching speeds (tON = 24ns, tOFF = 10ns). The digital logic
input is 1.8V logic compatible when using a single +3.0V
supply.
Cell phones, for example, often face ASIC functionality
limitations. The number of analog input or GPIO pins may be
limited and digital geometries are not well suited to analog
switch performance. This part may be used to “mux-in”
additional functionality while reducing ASIC design risk. The
ISL54053 is offered in the 6 Ld 1.2mmx1.0mmx0.5mm
µTDFN package, alleviating board space limitations.
The ISL54053 is a committed SPDT that consists of one
normally open (NO) and one normally closed (NC) switch.
This configuration can also be used as a 2-to-1 multiplexer.
FN6460.2
Features
• Drop In replacement for the NLAS5123
• ON-resistance (rON)
- VCC = +5.0V . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 0.8Ω
- VCC = +3.0V . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1.1Ω
- VCC = +1.8V . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2.3Ω
• rON matching between channels . . . . . . . . . . . . . . . . 0.004Ω
• rON flatness (+4.5V supply) . . . . . . . . . . . . . . . . . . . . . 0.25Ω
• Single supply operation . . . . . . . . . . . . . . . . . +1.8V to +5.5V
• Fast switching action (+4.5V supply)
- tON . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24ns
- tOFF . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10ns
• Guaranteed break-before-make
• ESD HBM rating . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . >6kV
• 1.8V CMOS logic compatible (+3V supply)
• Available in 6 Ld µTDFN package
• Pb-free (RoHS compliant)
TABLE 1. FEATURES AT A GLANCE
Applications
ISL54053
Number of Switches
1
SW
SPDT or 2-1 MUX
1.8V rON
2.3Ω
1.8V tON/tOFF
68ns/45ns
3V rON
1.1Ω
3V tON/tOFF
29ns/12ns
5V rON
0.8Ω
5V tON/tOFF
24ns/10ns
Packages
6 Ld μTDFN
• Battery powered, handheld, and portable equipment
- Cellular/mobile phones
- Pagers
- Laptops, notebooks, palmtops
• Portable test and measurement
• Medical equipment
• Audio and video switching
Related Literature
• Technical Brief TB363 “Guidelines for Handling and
Processing Moisture Sensitive Surface Mount Devices
(SMDs)”
Ordering Information
PART NUMBER (Note)
PART MARKING TEMP. RANGE (°C)
ISL54053IRUZ-T*
C
-40 to +85
PACKAGE (Pb-Free)
PKG. DWG. #
6 Ld (0.40mm pitch) 1.2x1.0x0.5 μTDFN Tape and Reel L6.1.2x1.0A
*Please refer to TB347 for details on reel specifications.
NOTE: These Intersil Pb-free plastic packaged products employ special Pb-free material sets; molding compounds/die attach materials and
NiPdAu plate - e4 termination finish, which is RoHS compliant and compatible with both SnPb and Pb-free soldering operations. Intersil Pb-free
products are MSL classified at Pb-free peak reflow temperatures that meet or exceed the Pb-free requirements of IPC/JEDEC J STD-020.
1
CAUTION: These devices are sensitive to electrostatic discharge; follow proper IC Handling Procedures.
1-888-INTERSIL or 1-888-468-3774 | Intersil (and design) is a registered trademark of Intersil Americas Inc.
Copyright © Intersil Americas Inc. 2007. All Rights Reserved
All other trademarks mentioned are the property of their respective owners.
ISL54053
Pinout
Pin Descriptions
(Note 1)
ISL54053
(6 LD µTDFN)
TOP VIEW
PIN
V+
NO
1
6
IN
GND
2
5
V+
NC
3
4
COM
FUNCTION
System Power Supply Input (+1.8V to +5.5V)
GND
Ground Connection
IN
Digital Control Input
COM
Analog Switch Common Pin
NO
Analog Switch Normally Open Pin
NC
Analog Switch Normally Closed Pin
NOTE:
1. Switches Shown for Logic “0” Input.
Truth Table
NOTE:
LOGIC
PIN NC
PIN NO
0
On
Off
1
Off
On
Logic “0” ≤ 0.5V. Logic “1” ≥ 1.4V with a 2.0V to 5.0V supply.
2
FN6460.2
September 25, 2007
ISL54053
Absolute Maximum Ratings
Thermal Information
V+ to GND . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . -0.5V to 6.5V
Input Voltages
NO, NC, IN (Note 2) . . . . . . . . . . . . . . . . . . . -0.5 to ((V+) + 0.5V)
Output Voltages
COM (Note 2) . . . . . . . . . . . . . . . . . . . . . . . . -0.5 to ((V+) + 0.5V)
Continuous Current NO, NC, or COM . . . . . . . . . . . . . . . . . ±300mA
Peak Current NO, NC, or COM
(Pulsed 1ms, 10% Duty Cycle, Max) . . . . . . . . . . . . . . . . ±500mA
ESD Rating
Human Body Model . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .>6kV
Machine Model . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .>200V
Charged Device Model . . . . . . . . . . . . . . . . . . . . . . . . . . . .>1000V
Thermal Resistance (Typical, Note 3)
θJA (°C/W)
6 Ld μTDFN Package . . . . . . . . . . . . . . . . . . . . . . .
175
Maximum Junction Temperature (Plastic Package). . . . . . . +150°C
Maximum Storage Temperature Range . . . . . . . . . . . -65°C to +150°C
Pb-free reflow profile . . . . . . . . . . . . . . . . . . . . . . . . . .see link below
http://www.intersil.com/pbfree/Pb-FreeReflow.asp
Operating Conditions
V+ (Positive DC Supply Voltage) . . . . . . . . . . . . . . . . . 1.8V to 5.5V
Analog Signal Range . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 0V to V+
VIN (Digital Logic Input Voltage (IN). . . . . . . . . . . . . . . . . . 0V to V+
Temperature Range . . . . . . . . . . . . . . . . . . . . . . . -40°C to +85°C
CAUTION: Do not operate at or near the maximum ratings listed for extended periods of time. Exposure to such conditions may adversely impact product reliability and
result in failures not covered by warranty.
NOTES:
2. Signals on NC, NO, IN, or COM exceeding V+ or GND are clamped by internal diodes. Limit forward diode current to maximum current ratings.
3. θJA is measured with the component mounted on a high effective thermal conductivity test board in free air. See Tech Brief TB379 for details.
Electrical Specifications - 5V Supply
PARAMETER
Test Conditions: V+ = +4.5V to +5.5V, GND = 0V, VINH = 2.4V, VINL = 0.8V (Note 4), Unless
Otherwise Specified.
TEST CONDITIONS
TEMP
(°C)
MIN
(Notes 5, 6)
Full
TYP
MAX
(Notes 5, 6) UNITS
ANALOG SWITCH CHARACTERISTICS
Analog Signal Range, VANALOG
0
-
V+
V
ON-Resistance, rON
V+ = 4.5V, ICOM = 100mA, VNO or VNC = 0V to V+,
(See Figure 5)
25
-
0.86
-
Ω
Full
-
1
-
Ω
rON Matching Between Channels,
ΔrON
V+ = 4.5V, ICOM = 100mA, VNO or VNC = 2.5V
25
-
0.004
-
Ω
Full
-
0.004
-
Ω
rON Flatness, rFLAT(ON)
V+ = 4.5V, ICOM = 100mA, VNO or VNC = 0V to V+,
(Note 7)
25
-
0.25
-
Ω
Full
-
0.27
-
Ω
NO or NC OFF Leakage Current,
INO(OFF) or INC(OFF)
V+ = 5.5V, VCOM = 0.3V, 5V, VNO or VNC = 5V, 0.3V
25
-10
5
10
nA
Full
-150
-
150
nA
COM ON Leakage Current,
ICOM(ON)
V+ = 5.5V, VCOM = 0.3V, 5V, or VNO or VNC = 0.3V, 5V,
or floating
25
-20
9
20
nA
Full
-300
-
300
nA
25
-
24
-
ns
DYNAMIC CHARACTERISTICS
Turn-ON Time, tON
V+ = 4.5V, VNO or VNC = 3.0V, RL = 50Ω, CL = 35pF
(See Figure 1, Note 8)
Turn-OFF Time, tOFF
V+ = 4.5V, VNO or VNC = 3.0V, RL = 50Ω, CL = 35pF
(See Figure 1, Note 8)
Full
-
30
-
ns
25
-
10
-
ns
Full
-
15
-
ns
Full
-
10
-
ns
Break-Before-Make Time Delay, tD
V+ = 5.5V, VNO or VNC = 3.0V, RL = 50Ω, CL = 35pF
(See Figure 3, Note 8)
Charge Injection, Q
VG = 0V, RG = 0Ω, CL = 1.0nF (See Figure 2)
25
-
26
-
pC
OFF Isolation
RL = 50Ω, CL = 5pF, f = 100kHz, VCOM = 1VRMS
(See Figure 4)
25
-
80
-
dB
Crosstalk (Channel-to-Channel)
RL = 50Ω, CL = 5pF, f = 100kHz, VCOM = 1VRMS
(See Figure 6)
25
-
-83
-
dB
Total Harmonic Distortion
f = 20Hz to 20kHz, VCOM = 0.5VP-P, RL = 600Ω
25
-
0.03
-
%
3
FN6460.2
September 25, 2007
ISL54053
Electrical Specifications - 5V Supply
Test Conditions: V+ = +4.5V to +5.5V, GND = 0V, VINH = 2.4V, VINL = 0.8V (Note 4), Unless
Otherwise Specified. (Continued)
TEMP
(°C)
MIN
(Notes 5, 6)
TYP
RL = 50Ω
25
-
190
-
MHz
NO or NC OFF Capacitance, COFF V+ = 4.5V, f = 1MHz, VNO or VNC = VCOM = 0V
(See Figure 7)
25
-
16
-
pF
COM ON Capacitance, CCOM(ON)
25
-
48
-
pF
Full
1.8
-
5.5
V
25
-
0.075
0.1
μA
Full
-
-
2.5
μA
PARAMETER
TEST CONDITIONS
-3dB Bandwidth
V+ = 4.5V, f = 1MHz, VNO or VNC = VCOM = 0V
(See Figure 7)
MAX
(Notes 5, 6) UNITS
POWER SUPPLY CHARACTERISTICS
Power Supply Range
Positive Supply Current, I+
V+ = 5.5V, VIN = 0V or V+
DIGITAL INPUT CHARACTERISTICS
Input Voltage Low, VINL
Full
-
-
0.8
V
Input Voltage High, VINH
Full
2.4
-
-
V
Full
-0.1
-
0.1
μA
Input Current, IINH, IINL
V+ = 5.5V, VIN = 0V or V+
Electrical Specifications - 3V Supply
PARAMETER
Test Conditions: V+ = +2.7V to +3.6V, GND = 0V, VINH = 1.4V, VINL = 0.5V (Note 4), Unless
Otherwise Specified.
TEST CONDITIONS
TEMP
(°C)
MIN
(Notes 5, 6)
Full
TYP
MAX
(Notes 5, 6) UNITS
ANALOG SWITCH CHARACTERISTICS
Analog Signal Range, VANALOG
0
-
V+
V
ON-Resistance, rON
V+ = 3.0V, ICOM = 100mA, VNO or VNC = 0V to V+,
(See Figure 5)
25
-
1.1
1.2
Ω
Full
-
-
1.5
Ω
rON Matching Between Channels,
ΔrON
V+ = 3.0V, ICOM = 100mA, VNO or VNC = 1.5V
25
-
0.004
0.14
Ω
Full
-
-
0.14
Ω
rON Flatness, rFLAT(ON)
V+ = 3.0V, ICOM = 100mA, VNO or VNC = 0V to V+,
(Note 7)
25
-
0.33
0.35
Ω
Full
-
-
0.4
Ω
25
-
29
-
ns
DYNAMIC CHARACTERISTICS
Turn-ON Time, tON
V+ = 2.7V, VNO or VNC = 1.5V, RL = 50Ω, CL = 35pF
(See Figure 1, Note 8)
Turn-OFF Time, tOFF
V+ = 2.7V, VNO or VNC = 1.5V, RL = 50Ω, CL = 35pF
(See Figure 1, Note 8)
Break-Before-Make Time Delay, tD
V+ = 3.6V, VNO or VNC = 1.5V, RL = 50Ω, CL = 35pF
(See Figure 3, Note 8)
Full
-
35
-
ns
25
-
12
-
ns
Full
-
17
-
ns
Full
-
10
-
ns
Charge Injection, Q
VG = 0V, RG = 0Ω, CL = 1.0nF (See Figure 2)
25
-
32
-
pC
OFF Isolation
RL = 50Ω, CL = 5pF, f = 100kHz, VCOM = 1VRMS
(See Figure 4)
25
-
80
-
dB
Crosstalk (Channel-to-Channel)
RL = 50Ω, CL = 5pF, f = 100kHz, VCOM = 1VRMS
(See Figure 6)
25
-
-83
-
dB
Total Harmonic Distortion
f = 20Hz to 20kHz, VCOM = 0.5VP-P, RL = 600Ω
25
-
0.03
-
%
-3dB Bandwidth
RL = 50Ω
25
-
190
-
MHz
NO or NC OFF Capacitance, COFF f = 1MHz, VNO or VNC = VCOM = 0V (See Figure 7)
25
-
16
-
pF
f = 1MHz, VNO or VNC = VCOM = 0V (See Figure 7)
25
-
48
-
pF
Full
-
-
0.5
V
COM ON Capacitance, CCOM(ON)
DIGITAL INPUT CHARACTERISTICS
Input Voltage Low, VINL
Input Voltage High, VINH
Input Current, IINH, IINL
V+ = 3.6V, VIN = 0V or V+
4
Full
1.4
-
-
V
Full
-0.1
-
0.1
μA
FN6460.2
September 25, 2007
ISL54053
Electrical Specifications - 1.8V Supply
PARAMETER
Test Conditions: V+ = +1.8V, GND = 0V, VINH = 1V, VINL = 0.4V (Note 4),
Unless Otherwise Specified.
TEST CONDITIONS
TEMP
(°C)
MIN
(Notes 5, 6)
TYP
MAX
(Notes 5, 6) UNITS
Full
0
-
V+
V
25
-
2.33
-
Ω
Full
-
2.54
-
Ω
25
-
68
-
ns
ANALOG SWITCH CHARACTERISTICS
Analog Signal Range, VANALOG
ON-Resistance, rON
V+ = 1.8V, ICOM = 10mA, VNO or VNC = 0V to V+,
(See Figure 5)
DYNAMIC CHARACTERISTICS
Turn-ON Time, tON
V+ = 1.8V, VNO or VNC = 1.5V, RL = 50Ω, CL = 35pF
(See Figure 1, Note 8)
Turn-OFF Time, tOFF
V+ = 1.8V, VNO or VNC = 1.5V, RL = 50Ω, CL = 35pF
(See Figure 1, Note 8)
Break-Before-Make Time Delay, tD
V+ = 1.8V, VNO or VNC = 1.5V, RL = 50Ω, CL = 35pF
(See Figure 3, Note 8)
Charge Injection, Q
VG = 0, RG = 0Ω, CL = 1.0nF (See Figure 2)
Full
-
93
-
ns
25
-
45
-
ns
Full
-
71
-
ns
Full
-
15
-
ns
25
-
18
-
pC
DIGITAL INPUT CHARACTERISTICS
Input Voltage Low, VINL
Full
-
-
0.4
V
Input Voltage High, VINH
Full
1
-
-
V
NOTES:
4. VIN = input voltage to perform proper function.
5. The algebraic convention, whereby the most negative value is a minimum and the most positive a maximum, is used in this data sheet.
6. Parts are 100% tested at +25°C. Over-temperature limits established by characterization and are not production tested.
7. Flatness is defined as the difference between maximum and minimum value of on-resistance over the specified analog signal range.
8. Limits established by characterization and are not production tested.
Test Circuits and Waveforms
VINH
LOGIC
INPUT
V+
tr < 20ns
tf < 20ns
50%
C
VINL
tOFF
SWITCH
INPUT
SWITCH
INPUT VNx
VOUT
90%
SWITCH
OUTPUT
VOUT
NO OR NC
COM
IN
90%
0V
LOGIC
INPUT
GND
RL
50Ω
CL
35pF
tON
Logic input waveform is inverted for switches that have the opposite
logic sense.
Repeat test for all switches. CL includes fixture and stray
capacitance.
RL
V OUT = V (NO or NC) ---------------------------R L + r ( ON )
FIGURE 1A. MEASUREMENT POINTS
FIGURE 1B. TEST CIRCUIT
FIGURE 1. SWITCHING TIMES
5
FN6460.2
September 25, 2007
ISL54053
Test Circuits and Waveforms (Continued)
V+
SWITCH
OUTPUT
VOUT
ΔVOUT
RG
C
VOUT
COM
NO OR NC
VINH
ON
ON
LOGIC
INPUT
OFF
VINL
VG
GND
IN
Q = ΔVOUT x CL
CL
LOGIC
INPUT
FIGURE 2A. MEASUREMENT POINTS
FIGURE 2B. TEST CIRCUIT
FIGURE 2. CHARGE INJECTION
V+
C
NO
VINH
VNX
LOGIC
INPUT
VOUT
COM
NC
RL
50Ω
VINL
IN
SWITCH
OUTPUT
VOUT
90%
CL
35pF
GND
LOGIC
INPUT
0V
tD
CL includes fixture and stray capacitance.
FIGURE 3B. TEST CIRCUIT
FIGURE 3A. MEASUREMENT POINTS
FIGURE 3. BREAK-BEFORE-MAKE TIME
V+
V+
C
C
rON = V1/100mA
SIGNAL
GENERATOR
NO OR NC
NO OR NC
VNX
IN
0V OR V+
COM
ANALYZER
100mA
IN
V1
VINL OR VINH
COM
GND
GND
RL
FIGURE 4. OFF ISOLATION TEST CIRCUIT
6
FIGURE 5. rON TEST CIRCUIT
FN6460.2
September 25, 2007
ISL54053
Test Circuits and Waveforms (Continued)
V+
V+
C
50Ω
NO OR NC
IN1
COM
NO or NC
SIGNAL
GENERATOR
0V OR V+
C
VINL OR VINH
IN
IMPEDANCE
ANALYZER
COM
NC OR NO
ANALYZER
GND
GND
RL
FIGURE 6. CROSSTALK TEST CIRCUIT
Detailed Description
The ISL54053 is a bidirectional, single pole/double throw
(SPDT) analog switch which offers precise switching
capability from a single 1.8V to 5.5V supply with low
ON-resistance (0.8Ω) and high speed operation (tON = 24ns,
tOFF = 10ns). The device is especially well suited for portable
battery powered equipment due to its low operating supply
voltage (1.8V), low power consumption (5.5μW), low leakage
currents (300nA max) and the small μTDFN package. The low
on-resistance and rON flatness provide very low insertion loss
and distortion to application that require signal reproduction.
FIGURE 7. CAPACITANCE TEST CIRCUIT
purpose of using a low rON switch. Connecting schottky
diodes to the signal pins (as shown in Figure 8) will shunt the
fault current to the supply or to ground thereby protecting the
switch. These schottky diodes must be sized to handle the
expected fault current.
OPTIONAL
SCHOTTKY
DIODE
V+
OPTIONAL
PROTECTION
RESISTOR
Supply Sequencing and Overvoltage Protection
With any CMOS device, proper power supply sequencing is
required to protect the device from excessive input currents
which might permanently damage the IC. All I/O pins contain
ESD protection diodes from the pin to V+ and to GND (see
Figure 8). To prevent forward biasing these diodes, V+ must
be applied before any input signals, and the input signal
voltages must remain between V+ and GND.
If these conditions cannot be guaranteed, then precautions
must be implemented to prohibit the current and voltage at
the logic pin and signal pins from exceeding the maximum
ratings of the switch. The following two methods can be used
to provided additional protection to limit the current in the
event that the voltage at a signal pin or logic pin goes below
ground or above the V+ rail.
Logic inputs can be protected by adding a 1kΩ resistor in
series with the logic input (see Figure 8). The resistor limits
the input current below the threshold that produces
permanent damage, and the sub-microamp input current
produces an insignificant voltage drop during normal
operation.
This method is not acceptable for the signal path inputs.
Adding a series resistor to the switch input defeats the
7
INX
VNX
VCOM
GND
OPTIONAL
SCHOTTKY
DIODE
FIGURE 8. OVERVOLTAGE PROTECTION
Power-Supply Considerations
The ISL54053 construction is typical of most single supply
CMOS analog switches, in that they have two supply pins:
V+ and GND. V+ and GND drive the internal CMOS
switches and set their analog voltage limits. Unlike switches
with a 4.5V maximum supply voltage, the ISL54053 5.5V
maximum supply voltage provides plenty of room for the
10% tolerance of 4.3V supplies, as well as room for
overshoot and noise spikes.
The minimum recommended supply voltage is 1.8V but the
part will operate with a supply below 1.8V. It is important to
note that the input signal range, switching times, and
on-resistance degrade at lower supply voltages. Refer to the
“Electrical Specifications” tables starting on page 3 and
“Typical Performance Curves” on page 8 for details.
FN6460.2
September 25, 2007
ISL54053
V+ and GND also power the internal logic and level shifters.
The level shifters convert the input logic levels to switched
V+ and GND signals to drive the analog switch gate
terminals.
This family of switches cannot be operated with bipolar
supplies because the input switching point becomes
negative in this configuration.
Logic-Level Thresholds
This switch family is 1.8V CMOS compatible (0.5V and 1.4V)
over a supply range of 2V to 5V (see Figure 15). At 5V the
VIH level is about 1.2V. This is still below the 1.8V CMOS
guaranteed high output minimum level of 1.4V, but noise
margin is reduced.
The digital input stages draw supply current whenever the
digital input voltage is not at one of the supply rails. Driving
the digital input signals from GND to V+ with a fast transition
time minimizes power dissipation.
High-Frequency Performance
In 50Ω systems, the ISL54053 has a -3dB bandwidth of
190MHz (see Figure 16). The frequency response is very
consistent over a wide V+ range, and for varying analog
signal levels.
An OFF switch acts like a capacitor and passes higher
frequencies with less attenuation, resulting in signal
feedthrough from a switch’s input to its output. Off isolation is
the resistance to this feedthrough, while crosstalk indicates
the amount of feedthrough from one switch to another.
Figure 17 details the high off isolation and crosstalk rejection
provided by this family. At 100kHz, off isolation is about 80dB
in 50Ω systems, decreasing approximately 20dB per decade
as frequency increases. Higher load impedances decrease
off isolation and crosstalk rejection due to the voltage divider
action of the switch OFF impedance and the load
impedance.
Leakage Considerations
ESD protection diodes are internally connected between each
analog-signal pin and both V+ and GND. One of these diodes
conducts if any analog signal exceeds V+ or GND.
Virtually all the analog leakage current comes from the ESD
diodes to V+ or GND. Although the ESD diodes on a given
signal pin are identical and therefore fairly well balanced,
they are reverse biased differently. Each is biased by either
V+ or GND and the analog signal. This means their leakages
will vary as the signal varies. The difference in the two diode
leakages to the V+ and GND pins constitutes the analogsignal-path leakage current. All analog leakage current flows
between each pin and one of the supply terminals, not to the
other switch terminal. This is why both sides of a given
switch can show leakage currents of the same or opposite
polarity. There is no connection between the analog signal
paths and V+ or GND.
Typical Performance Curves TA = +25°C, Unless Otherwise Specified.
2.5
1.0
ICOM = 100mA
0.9
V+ = 1.8V
2.0
0.8
0.7
rON (Ω)
rON (Ω)
1.5
V+ = 2.7V
1.0
V+ = 3V
+85°C
0.6
+25°C
0.5
V+ = 4.5V
0.4
V+ = 5V
-40°C
0.5
V+ = 5V
ICOM = 100mA
0.3
0.2
0
0
1
2
3
4
VCOM (V)
FIGURE 9. ON-RESISTANCE vs SUPPLY VOLTAGE vs
SWITCH VOLTAGE
8
5
0
1
2
3
4
5
VCOM (V)
FIGURE 10. ON-RESISTANCE vs SWITCH VOLTAGE
FN6460.2
September 25, 2007
ISL54053
Typical Performance Curves TA = +25°C, Unless Otherwise Specified. (Continued)
1.5
3.0
V+ = 1.8V
ICOM = 10mA
1.4
2.5
1.3
1.2
2.0
rON (Ω)
rON (Ω)
1.1
+85°C
1.0
0.9
+85°C
1.5
+25°C
+25°C
0.8
-40°C
1.0
0.7
-40°C
0.6
V+ = 3.0V
ICOM = 100mA
0.5
0
0.5
1.0
1.5
2.0
0.5
2.5
0
3.0
0.5
1.0
1.5
1.8
VCOM (V)
VCOM (V)
FIGURE 11. ON-RESISTANCE vs SWITCH VOLTAGE
FIGURE 12. ON-RESISTANCE vs SWITCH VOLTAGE
100
80
90
-40°C
80
60
-40°C
60
tOFF (ns)
tON (ns)
70
50
40
+85°C
+25°C
+25°C
40
30
20 +85°C
20
-40°C
10
0
1.8
2.8
V+ (V)
3.8
2.8
3.8
4.8
V+ (V)
FIGURE 14. TURN-OFF TIME vs SUPPLY VOLTAGE
NORMALIZED GAIN (dB)
FIGURE 13. TURN-ON TIME vs SUPPLY VOLTAGE
1.6
1.4
VINH AND VINL (V)
-40°C
0
1.8
4.8
1.2
VINH
1.0
0
GAIN
-1
-2
-3
VINL
0.8
0.6
V+ = 5.0V
RL = 50Ω
VIN = 0.2VP-P to 2VP-P
0.4
0.2
2.0
2.5
3.0
3.5
4.0
V+ (V)
4.5
5.0
5.5
FIGURE 15. DIGITAL SWITCHING POINT vs SUPPLY VOLTAGE
9
0.01k
0.1k
10M
1M
FREQUENCY (Hz)
100M
1G
FIGURE 16. FREQUENCY RESPONSE
FN6460.2
September 25, 2007
ISL54053
Typical Performance Curves TA = +25°C, Unless Otherwise Specified. (Continued)
0
0
V+ = 1.8V to 5.5V
40
-20
-20
-40
-40
V+ = 3.0V
30
-60
CROSSTALK
-80
-60
-80
-100
-100
10
0
Q (pC)
ISOLATION
OFF ISOLATION (dB)
CROSSTALK (dB)
20
-10
-20
V+ = 5V
V+ = 1.8V
V+ = 3.0V
-30
-40
-50
-120
1k
10k
100k
1M
10M
FREQUENCY (Hz)
-120
100M 500M
FIGURE 17. CROSSTALK AND OFF ISOLATION
-60
0
1
2
3
4
5
VCOM (V)
FIGURE 18. CHARGE INJECTION vs SWITCH VOLTAGE
Die Characteristics
SUBSTRATE POTENTIAL (POWERED UP):
GND
TRANSISTOR COUNT:
57
PROCESS:
Submicron CMOS
10
FN6460.2
September 25, 2007
ISL54053
Ultra Thin Dual Flat No-Lead Plastic Package (UTDFN)
A
E
L6.1.2x1.0A
B
6 LEAD ULTRA THIN DUAL FLAT NO-LEAD PLASTIC PACKAGE
MILLIMETERS
PIN 1
REFERENCE
2X
0.10 C
2X
D
0.10 C
SYMBOL
MIN
NOMINAL
MAX
NOTES
A
0.45
0.50
0.55
-
A1
-
-
0.05
-
A
0.08 C
0.15
0.20
0.25
5
D
0.95
1.00
1.05
-
E
1.15
1.20
1.25
-
0.40 BSC
e
A1 A3
SIDE VIEW
C
SEATING
PLANE
4X
e
DETAIL B
1
5X
L
3
-
b
DETAIL A
0.10 C
7X
0.127 REF
A3
TOP VIEW
-
L
0.30
0.35
0.40
-
L1
0.40
0.45
0.50
-
N
6
2
Ne
3
3
θ
0
-
12
4
L1
Rev. 2 8/06
NOTES:
1. Dimensioning and tolerancing conform to ASME Y14.5-1994.
6
4
BOTTOM VIEW
b 6X
0.10 C A B
0.05 C NOTE 3
2. N is the number of terminals.
3. Ne refers to the number of terminals on E side.
4. All dimensions are in millimeters. Angles are in degrees.
5. Dimension b applies to the metallized terminal and is measured
between 0.15mm and 0.30mm from the terminal tip.
0.1x45°
CHAMFER
6. The configuration of the pin #1 identifier is optional, but must be
located within the zone indicated. The pin #1 identifier may be
either a mold or mark feature.
7. Maximum package warpage is 0.05mm.
8. Maximum allowable burrs is 0.076mm in all directions.
9. JEDEC Reference MO-255.
A3
A1
DETAIL A
DETAIL B PIN 1 LEAD
10. For additional information, to assist with the PCB Land Pattern
Design effort, see Intersil Technical Brief TB389.
1.00
1.40
0.20
0.30
0.45
0.35
0.20
0.40
LAND PATTERN
10
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11
FN6460.2
September 25, 2007