JM3851012801BGA Datasheet, PDF(7/12 Page) Analog Devices – Pin Programmable, Precision Voltage Reference

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JM3851012801BGA Datasheet, PDF (7/12 Pages) Analog Devices – Pin Programmable, Precision Voltage Reference

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Data Sheet

PERFORMANCE OVER TEMPERATURE

Each AD584 is tested at three temperatures over the â55Â°C to

+125Â°C range to ensure that each device falls within the maximum

error band (see Figure 6) specified for a particular grade (that is, S

and T grades); three-point measurement guarantees performance

within the error band from 0Â°C to 70Â°C (that is, J and K grades).

The error band guaranteed for the AD584 is the maximum

deviation from the initial value at 25Â°C. Thus, given the grade

of the AD584, the maximum total error from the initial tolerance

plus the temperature variation can easily be determined. For

example, for the AD584T, the initial tolerance is Â±10 mV, and

the error band is Â±15 mV. Therefore, the unit is guaranteed to

be 10.000 V Â± 25 mV from â55Â°C to +125Â°C.

10.005

10.000

9.995

â55

125

TEMPERATURE (Â°C)

Figure 6. Typical Temperature Characteristic

OUTPUT CURRENT CHARACTERISTICS

The AD584 has the capability to either source or sink current

and provide good load regulation in either direction; although,

it has better characteristics in the source mode (positive current

into the load). The circuit is protected for shorts to either positive

AD584

supply or ground. Figure 7 shows the output voltage vs. the

output current characteristics of the device. Source current is

displayed as negative current in the figure, and sink current is

displayed as positive current. The short-circuit current (that is,

0 V output) is about 28 mA; however, when shorted to 15 V, the

sink current goes to approximately 20 mA.

+VS = 15V

14 TA = 25Â°C

â20 â15 â10 â5 0 5 10 15 20

SOURCE

SINK

OUTPUT CURRENT (mA)

Figure 7. Output Voltage vs. Output Current (Sink and Source)

DYNAMIC PERFORMANCE

Many low power instrument manufacturers are becoming

increasingly concerned with the turn-on characteristics of the

components being used in their systems. Fast turn-on components

often enable the end user to keep power off when not needed

and yet respond quickly when the power is turned on. Figure 8

displays the turn-on characteristic of the AD584. Figure 8 is

generated from cold-start operation and represents the true

turn-on waveform after an extended period with the supplies off.

Figure 8 shows both the coarse and fine transient characteristics of

the device; the total settling time to within ÂÂ±10 mV is about

180 Âµs, and there is no long thermal tail appearing after the point.

12V

OUTPUT 11V

10V

20V

POWER

SUPPLY 10V

INPUT

10.03V

10.02V

10.01V

OUTPUT

10.00V

0 50 100 150 200 250

SETTLING TIME (Âµs)

Figure 8. Output Settling Characteristic

Rev. C | Page 7 of 12

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