adum5400 Analog Devices, Inc., adum5400 Datasheet - Page 17

adum5400

Manufacturer Part Number

adum5400

Description

Quad-channel Isolator With Integrated Dc-to-dc Converter

Manufacturer

Analog Devices, Inc.

Datasheet

1.ADUM5400.pdf (21 pages)

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POWER CONSIDERATIONS

The ADuM5400 power input, the data input channels on the

primary side, and the data input channels on the secondary side

are all protected from premature operation by UVLO circuitry.

Below the minimum operating voltage, the power converter holds

its oscillator inactive, and all input channel drivers and refresh

circuits are idle. Outputs are held in a low state. This is to prevent

transmission of undefined states during power-up and power-

down operations.

During application of power to V

is held idle until the UVLO preset voltage is reached. At that time,

the data channels are initialized to their default low output state

until they receive data pulses from the secondary side.

The primary side input channels sample the input and send a pulse

to the inactive secondary output. The secondary side converter

begins to accept power from the primary, and the V

starts to rise. When the secondary side UVLO is reached, the

secondary side outputs are initialized to their default low state

until data, either a transition or a dc refresh pulse, is received

from the corresponding primary side input. It can take up to

1 μs after the secondary side is initialized for the state of the

output to correlate with the primary side input.

Secondary side inputs sample their state and transmit it to the

primary side. Outputs are valid one propagation delay after the

secondary side becomes active.

Because the rate of charge of the secondary side is dependent

on loading conditions, input voltage, and output voltage level

selected, care should be taken in the design to allow the converter

to stabilize before valid data is required.

When power is removed from V

and coupler shut down when the UVLO level is reached. The

secondary side stops receiving power and starts to discharge.

The outputs on the secondary side hold the last state that they

received from the primary until either the UVLO level is reached

and the outputs are placed in their default low state, or the outputs

detect a lack of activity from the inputs and the outputs are set

to their default value before the secondary power reaches UVLO.

INSULATION LIFETIME

All insulation structures eventually break down when subjected

to voltage stress over a sufficiently long period. The rate of insu-

lation degradation is dependent on the characteristics of the voltage

waveform applied across the insulation. Analog Devices conducts

an extensive set of evaluations to determine the lifetime of the

insulation structure within the ADuM5400.

Accelerated life testing is performed using voltage levels higher

than the rated continuous working voltage. Acceleration factors

Preliminary Technical Data

DD1

, the primary side converter

, the primary side circuitry

ISO

voltage

Rev. PrA | Page 17 of 21

for several operating conditions are determined, allowing calcu-

lation of the time to failure at the working voltage of interest. The

values shown in Table 9 summarize the peak voltages for 50 years

of service life in several operating conditions. In many cases, the

working voltage approved by agency testing is higher than the

50-year service life voltage. Operation at working voltages higher

than the service life voltage listed leads to premature insulation

failure.

The insulation lifetime of the ADuM5400 depends on the voltage

waveform type imposed across the isolation barrier. The

iCoupler insulation structure degrades at different rates,

depending on whether the waveform is bipolar ac, unipolar ac, or

dc. Figure 22, Figure 23, and Figure 24 illustrate these different

isolation voltage waveforms.

Bipolar ac voltage is the most stringent environment. A 50-year

operating lifetime under the bipolar ac condition determines

the Analog Devices recommended maximum working voltage.

In the case of unipolar ac or dc voltage, the stress on the insulation

is significantly lower. This allows operation at higher working

voltages while still achieving a 50-year service life. The working

voltages listed in Table 9 can be applied while maintaining the

50-year minimum lifetime, provided the voltage conforms to either

the unipolar ac or dc voltage cases. Any cross-insulation voltage

waveform that does not conform to Figure 23 or Figure 24

should be treated as a bipolar ac waveform, and its peak voltage

should be limited to the 50-year lifetime voltage value listed in

Table 9.

NOTES:

1. THE VOLTAGE IS SHOWN AS SINUSOIDAL FOR ILLUSTRATION

PURPOSES ONLY. IT IS MEANT TO REPRESENT ANY VOLTAGE

WAVEFORM VARYING BETWEEN 0 AND SOME LIMITING VALUE.

THE LIMITING VALUE CAN BE POSITIVE OR NEGATIVE, BUT THE

VOLTAGE CANNOT CROSS 0V.

RATED PEAK VOLTAGE

Figure 24. Unipolar AC Waveform

Figure 22. Bipolar AC Waveform

Figure 23. DC Waveform

ADuM5400

adum5400 Analog Devices, Inc., adum5400 Datasheet - Page 17

adum5400

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