DG407DJ-E3 Siliconix / Vishay, DG407DJ-E3 Datasheet - Page 10

DG407DJ-E3

Manufacturer Part Number

DG407DJ-E3

Description

Multiplexer; Analog; Dual 8; 5 to 20 V; 50 Ohms (Typ.); 0.04 nA (Typ.)

Manufacturer

Siliconix / Vishay

Datasheet

1.DG407DJ-E3.pdf (12 pages)

Specifications of DG407DJ-E3

Current, Supply

1 nA

Power Consumption

200 μW

Resistance, Drain To Source On

50 Ohm

Voltage, Supply

44 V

Low On-resistance

rDS(on)

Low Charge Injection

Fast Transition Time

tTRANS

Low Power

0.2 mW

Lead Free Status / Rohs Status

RoHS Compliant part Electrostatic Device

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DG406/407

Vishay Siliconix

APPLICATIONS HINTS

Sampling speed is limited by two consecutive events: the

transition time of the multiplexer, and the settling time of the

sampled signal at the output.

depends on several parameters: r

source impedance, multiplexer and load capacitances,

charge injection of the multiplexer and accuracy desired.

The settling time for the multiplexer alone can be derived

from the model shown in Figure 5. Assuming a low

impedance signal source like that presented by an op amp or

a buffer amplifier, the settling time of the RC network for a

given accuracy is equal to nτ:

www.vishay.com

TRANS

Figure 5. Simplified Model of One Multiplexer Channel

% ACCURACY

is given on the data sheet. Settling time at the load

0.0017

0.012

0.25

= 0

DS(on)

# BITS

DS(on)

D(on)

of the multiplexer,

OUT

The maximum sampling frequency of the multiplexer is:

For the DG406 then, at room temp and for 12-bit accuracy,

using the maximum limits:

From the sampling theorem, to properly recover the original

signal, the sampling frequency should be more than twice

the maximum component frequency of the original signal.

This assumes perfect bandlimiting. In a real application

sampling at three to four times the filter cutoff frequency is a

good practice.

Therefore from equation 2 above:

From this we can see that the DG406 can be used to sample

16 different signals whose maximum component frequency

can be as high as 173 kHz. If for example, two channels are

used to double sample the same incoming signal then its

cutoff frequency can be doubled.

= 694 kHz

------------------------------------------------------------------------------------------------------ -

16 9

-- -

--------------------------------------------------------- -

N t

where N = number of channels to scan

(

SETTLING

(

SETTLING

100 Ω

173 kHz

= nτ = n x r

TRANS

-12

)

DS(on)

300 10

x C

S-71009–Rev. I, 14-May-07

Document Number: 70061

D(on)

-12

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DG407DJ-E3 Siliconix / Vishay, DG407DJ-E3 Datasheet - Page 10

DG407DJ-E3

Specifications of DG407DJ-E3

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