ZSPM1025A Datasheet, PDF(18/45 Page) List of Unclassifed Manufacturers – True Digital PWM Controller (Single-Phase, Single-Rail)

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ZSPM1025A Datasheet, PDF (18/45 Pages) List of Unclassifed Manufacturers – True Digital PWM Controller (Single-Phase, Single-Rail)

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ZSPM1025A Datasheet

3.3.6. Current Sensing

The ZSPM1025A offers cycle-by-cycle average current sensing with configurable over-current protection. A

dedicated ADC is used to provide fast and accurate current information over the switching period. The acquired

information is compared with configurable current thresholds to report warning and error levels to the user. DCR

current sensing across the inductor and dedicated shunt resistors is supported. Additionally, the device uses DCR

temperature compensation via the external temperature-sensing element. This increases the accuracy of the

current sense method by counteracting the significant change of the DCR over temperature.

To acquire accurate current information, the selection of the current-sensing circuit is of critical importance. The

schematic of the required current-sensing circuitry is shown in Figure 3.4 for the widely used DCR current-sensing

method, which uses the parasitic resistance of the inductor to acquire the current information. The principle is

based on a matched time-constant between the inductor and the low-pass filter built from a 2.15kÎ© resistor

mounted on the Murata Power Block and C8. Resistor R6 should be a precision 2.15kÎ© resistor in order to

provide good DC voltage rejection, .i.e. reduce the influence of the output voltage level in the current measure-

ment.

Figure 3.4 Inductor Current Sensing Using the DCR Method

Murata

OKLP-X/25-W12-C

L DCR

+Vout

ZSPM1025

ISNSP

ISNSN

2.15 kOhm

+CS

-CS

220nF

2.15 kOhm

End-of-line calibration is supported so that the ZSPM1025A can achieve improved accuracy over the full output

current range. The full calibration method is detailed in the ZSPM10xx Application NoteâProgramming and

Calibration. This allows the user to correct mismatches between the nominal DCR value used to configure the

device and the actual DCR value in the application caused by effects such as manufacturing variations. The

calibration range is limited to +/- 50% of the nominal DCR value.

January 25, 2016

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