ISL43L420 Datasheet, PDF(9/13 Page) Intersil Corporation – Ultra Low ON-Resistance, +1.1V to +4.5V Single Supply, Quad SPDT (Dual DPDT) Analog Switch

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ISL43L420 Datasheet, PDF (9/13 Pages) Intersil Corporation – Ultra Low ON-Resistance, +1.1V to +4.5V Single Supply, Quad SPDT (Dual DPDT) Analog Switch

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ISL43L420

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 2.0V to 3.6V (See Figure 16). At 3.6V

the VIH level is about 1.27V. 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 50â¦ systems, the signal response is reasonably flat even

past 30MHz with a -3dB bandwidth of 104MHz (See Figure 19).

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 switchâs 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 20 details the high Off Isolation and Crosstalk

rejection provided by this part. At 100kHz, Off Isolation is

about 68dB in 50â¦ 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

Reverse 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 analog-

signal-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 = 25Â°C, Unless Otherwise Specified

0.31

0.3

0.29

0.28

0.27

0.26

0.25

0.24

0.23

0.22

0.21

0.2

0.19

0.18

V+ = 2.7V

V+ = 3V

V+ = 3.6V

ICOM = 100mA

V+ = 4.3V

VCOM (V)

FIGURE 9. ON RESISTANCE vs SUPPLY VOLTAGE vs

SWITCH VOLTAGE

ICOM = 100mA

2.5

V+ = 1.1V

1.5

V+ = 1.5V

0.5

V+ = 1.8V

V+ = 1.65V

0.5

1.5

VCOM (V)

FIGURE 10. ON RESISTANCE vs SUPPLY VOLTAGE vs

SWITCH VOLTAGE

FN6098.1

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