MAX5942BCSE Maxim Integrated, MAX5942BCSE Datasheet - Page 11
MAX5942BCSE
Manufacturer Part Number
MAX5942BCSE
Description
Power Switch ICs - POE / LAN
Manufacturer
Maxim Integrated
Datasheet
1.MAX5942ACSE-T.pdf
(24 pages)
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The MAX5942A/MAX5942B integrate a complete power
IC for powered devices (PD) in a power-over-ethernet
(PoE) system. The MAX5942A/MAX5942B provide PD
Interface and a compact DC-DC PWM controller suitable
for flyback and forward converters in either isolated or
nonisolated designs.
The MAX5942A/MAX5942B PD interface complies with
the IEEE 802.3af standard, providing the PD with a
detection signature, a classification signature, and an
integrated isolation switch with programmable inrush
current control. These devices also feature power-mode
undervoltage lockout (UVLO) with wide hysteresis, and
power-good status outputs.
An integrated MOSFET provides PD isolation during
detection and classification. The MAX5942A/MAX5942B
guarantee a leakage current offset of less than 10µA dur-
ing the detection phase. A programmable current limit
prevents high inrush current during power-on. The
devices feature power-mode UVLO with wide hysteresis
and long deglitch time to compensate for twisted-pair
cable resistive drop and to ensure glitch-free transition
between detection, classification, and power-on/off
phases. The MAX5942A/MAX5942B provide both active-
high (PGOOD) and active-low (PGOOD) outputs. Both
devices offer an adjustable UVLO threshold with a
default value compliant to the IEEE 802.3af standard.
The MAX5942A/MAX5942B are designed to work with or
without an external diode bridge in front of the PD.
Use the MAX5942A/MAX5942B PWM current-mode con-
trollers to design flyback- or forward-mode power sup-
plies. Current-mode operation simplifies control-loop
design while enhancing loop stability. An internal high-
voltage startup regulator allows the device to connect
directly to the input supply without an external startup
resistor. Current from the internal regulator starts the con-
troller. Once the tertiary winding voltage is established,
the internal regulator is switched off and bias current
for running the PWM controller is derived from the
tertiary winding. The internal oscillator is set to 275kHz
and trimmed to ±10%. This permits the use of small
Table 1. PD Power Classification/R
*Class 4 reserved for future use.
CLASS
0
1
2
3
4
Interface/PWM Controller for Power Devices
______________________________________________________________________________________
Detailed Description
Not allowed
Optional
Optional
Optional
USAGE
Default
IEEE 802.3af Power-Over-Ethernet
R
CL
CL
10k
732
392
255
178
(Ω)
Selection
magnetic components to minimize board space. Both the
MAX5942A and MAX5942B can be used in power sup-
plies providing multiple output voltages. A functional dia-
gram of the PWM controller is shown in Figure 4. Typical
application circuits for forward and flyback topologies are
shown in Figure 5 and Figure 6, respectively.
The PD front-end section of the MAX5942A/MAX5942B
operates in three different modes: PD detection signa-
ture, PD classification, and PD power, depending on its
input voltage (V
are designed to operate with or without the optional
diode bridge while still complying with the IEEE 802.3af
standard (see Application Circuit 1).
In detection mode, the power source equipment (PSE)
applies two voltages on V
10.1V (1V step minimum), and then records the current
measurements at the two points. The PSE then com-
putes ∆V/∆I to ensure the presence of the 25.5kΩ sig-
nature resistor. In this mode, most of the
MAX5942A/MAX5942B internal circuitry is off and the
offset current is less than 10µA.
If the voltage applied to the PD is reversed, install pro-
tection diodes on the input terminal to prevent internal
damage to the MAX5942A/MAX5942B (see Figures 8
and 9). Since the PSE uses a slope technique (∆V/∆I) to
calculate the signature resistance, the DC offset due to
the protection diodes is subtracted and does not affect
the detection process.
In the classification mode, the PSE classifies the PD
based on the power consumption required by the PD.
This allows the PSE to efficiently manage power distribu-
tion. The IEEE 802.3af standard defines five different
classes as shown in Table 1. An external resistor (R
connected from RCL to V
MAXIMUM POWER USED BY PD (W)
Classification Mode (12.6V ≤ V
IN
Detection Mode (1.4V ≤ V
= GND - V
0.44 to 12.95
6.49 to 12.95
0.44 to 3.84
3.84 to 6.49
Powered Device Interface
Reserved*
EE
sets the classification current.
IN
EE
in the range of 1.4V to
). All voltage thresholds
Operating Modes
IN
IN
≤ 10.1V)
≤ 20V)
CL
11
)
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