TPS23750EVM-108 Datasheet, PDF(16/41 Page) Texas Instruments – INTEGRATED 100-V IEEE 802.3af PD AND DC/DC CONTROLLER

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TPS23750EVM-108 Datasheet, PDF (16/41 Pages) Texas Instruments – INTEGRATED 100-V IEEE 802.3af PD AND DC/DC CONTROLLER

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TPS23750

TPS23770

SLVS590B â JULY 2005 â REVISED FEBRUARY 2008

www.ti.com

PoE THRESHOLDS

The TPS23750 has a number of internal comparators with hysteresis for stable switching between the various

states as shown in Figure 29. Figure 30 relates the parameters in the Electrical Characteristics section to the

PoE states. The mode labeled idle between classification and operation implies that the DET, CLASS, and RTN

pins are all high impedance.

Idle

Classification

PD Powered

Detection

1.4V

VCL_H

VCL_ON

VCU_H

VCU_OFF

VUVLO_F

VUVLO_R

Figure 30. Threshold Voltages

VDD

DETECTION

This feature of IEEE 802.3af reduces the risk of damaging Ethernet devices not intended for application of 48 V.

When a voltage in the range of 2.7 V to 10.1 V is applied to the PI, an incremental resistance of 25 kâ¦ signals

the PSE that the PD is both capable of, and ready to, accept power. The incremental resistance is measured by

applying at least two different voltages to the PI and measuring the current it draws. These two test voltages

must be within the specified range and be at least 1 V apart. The incremental resistance equals the difference

between the voltages divided by the difference between the currents. The allowed range of resistance is 23.75

kâ¦ to 26.25 kâ¦.

The TPS23750 is in detection mode whenever the supply voltage is below the lower classification threshold. The

TPS23750 draws a minimum of bias power in this condition, while RTN is high impedance and almost all the

internal circuits are disabled. The DET pin is pulled to ground during detection, so a 24.9 kâ¦, 1% resistor from

VDD to DET presents the correct signature. RDET may be a small, low-power resistor since it only sees a stress of

about 5 mW. When the input voltage rises above the 11.3 V upper detection comparator threshold, the DET pin

goes to an open-drain condition to conserve power.

The input diode bridgeâs incremental resistance may be hundreds of Ohms at the very low currents seen at 2.7 V

on the PI. The bridgeâs resistance is in series with RDET and increases the total resistance seen by the PSE. The

nonlinearity in the detection signature of Figure 29 is caused by the diode bridge. This varies with the type of

diode selected by the designer, and it is not usually specified on the diode data sheet. The value of RDET may be

adjusted downwards to accommodate a particular diode type.

CLASSIFICATION

Once the PSE has detected a PD, it may optionally classify the PD. Classification allows a PSE to determine a

PDâs power requirements rather than assuming every PD requires 15.4 W, which allows the PSE to power the

maximum number of PDs from its 48-V power supply. This step is optional because some PSEs can afford to

allot the full power to every powered port.

The classification process applies a voltage between 14.5 V and 20.5 V to the input of the PD, which in turn

draws a fixed current set by RCLASS. The PSE measures the PD current to determine which of the five available

classes (see Table 2) that the PD falls into. The total current drawn from the PSE during classification is the sum

of bias currents and current through RCLASS. The TPS23750 disconnects RCLASS at voltages above the

classification range to avoid excessive power dissipation (see Figure 29 and Figure 30).

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