ISL60007 Intersil Corporation, ISL60007 Datasheet - Page 7

ISL60007

Manufacturer Part Number

ISL60007

Description

High Precision FGA Voltage References

Manufacturer

Intersil Corporation

Datasheet

1.ISL60007.pdf (10 pages)

Current page: 7 of 10
Download datasheet (267Kb)

Board Mounting Considerations

For applications requiring the highest accuracy, board

mounting location should be reviewed. Placing the device in

areas subject to slight twisting can cause degradation of the

accuracy of the reference voltage due to die stresses. It is

normally best to place the device near the edge of a board,

or the shortest side, as the axis of bending is most limited at

that location. Obviously mounting the device on flexprint or

extremely thin PC material will likewise cause loss of

reference accuracy.

Noise Performance and Reduction

The output noise voltage in a 0.1Hz to 10Hz bandwidth is

typically 30µV

Performance Curves. The noise measurement is made with

a bandpass filter made of a 1 pole high-pass filter with a

corner frequency at 0.1Hz and a 2-pole low-pass filter with a

corner frequency at 12.6Hz to create a filter with a 9.9Hz

bandwidth. Noise in the 10kHz to 1MHz bandwidth is

approximately 400µV

as shown in Figure 16. These noise measurements are

made with a 2 decade bandpass filter made of a 1 pole high-

pass filter with a corner frequency at 1/10 of the center

frequency and 1-pole low-pass filter with a corner frequency

at 10 times the center frequency. Figure 16 also shows the

noise in the 10kHz to 1MHz band can be reduced to about

50µV

the 1kHz to 100kHz band can be further reduced using a

0.1µF capacitor on the output, but noise in the 1Hz to 100Hz

band increases due to instability of the very low power

amplifier with a 0.1µF capacitance load. For load

capacitances above 0.001µF the noise reduction network

shown in Figure 17 is recommended. This network reduces

noise significantly over the full bandwidth. As shown in

Figure 16, noise is reduced to less than 40µV

to 1MHz using this network with a 0.01µF capacitor and a

2kΩ resistor in series with a 10µF capacitor.

400

350

300

250

200

150

100

P-P

using a 0.001µF capacitor on the output. Noise in

P-P

FIGURE 16. NOISE REDUCTION

. This is shown in the plot in the Typical

= 0.1µF

P-P

& 10µF + 2kΩ

with no capacitance on the output,

100

= 0.01µF

1000

10000

P-P

= 0.001µF

from 1Hz

= 0

100000

ISL60007

Turn-On Time

The ISL60007 devices operate with ultra-low supply current

and thus the time to bias up internal circuitry to final values

will be longer than with references that require higher

current. Normal turn-on time is typically 4ms. This is shown

in Figure 18. Since devices can vary in supply current down

to 250nA, turn-on time can last up to about 6ms. Care

should be taken in system design to include this delay before

measurements or conversions are started.

Temperature Coefficient

The limits stated for temperature coefficient (tempco) are

governed by the method of measurement. The

overwhelming standard for specifying the temperature drift of

a reference is to measure the reference voltage at two

temperatures, take the total variation, (V

divide by the temperature extremes of measurement

reference voltage (at T = 25°C) and multiplied by 10

ppm/°C. This is the “Box” method for specifying temperature

coefficient.

HIGH

= 3.0V

3.5

2.5

1.5

0.5

0.1µF

- T

400nA

LOW

570nA

FIGURE 18. TURN-ON TIME (+25°C)

10µF

). The result is divided by the nominal

ISL60007

FIGURE 17.

250nA

GND

TIME (ms)

0.01µF

HIGH

- V

LOW

April 21, 2006

to yield

), and

FN8087.3

2kΩ

10µF

ISL60007 Intersil Corporation, ISL60007 Datasheet - Page 7

ISL60007

Related parts for ISL60007