PD70210/PD70210A/PD70210AL
Datasheet
Front-End PD Interface Controller
October 2019
Front-End PD Interface Controller
Contents
1 Revision History ............................................................................................................................. 1
1.1 Revision 3.0 ........................................................................................................................................ 1
1.2 Revision 2.0 ........................................................................................................................................ 1
1.3 Revision 1.51 ...................................................................................................................................... 1
1.4 Revision 1.50 ...................................................................................................................................... 1
1.5 Revision 1.40 ...................................................................................................................................... 1
1.6 Revision 1.38 ...................................................................................................................................... 1
1.7 Revision 1.37 ...................................................................................................................................... 2
1.8 Revision 1.36 ...................................................................................................................................... 2
1.9 Revision 1.34 ...................................................................................................................................... 2
1.10 Revision 1.2 ...................................................................................................................................... 2
1.11 Revision 1.1 ...................................................................................................................................... 2
1.12 Revision 1.0 ...................................................................................................................................... 2
2 Product Overview .......................................................................................................................... 3
2.1 Features .............................................................................................................................................. 3
2.2 Applications ........................................................................................................................................ 3
3 Functional Descriptions ................................................................................................................. 5
3.1 Application Information ..................................................................................................................... 6
3.1.1
Peripheral Devices ................................................................................................................................... 6
3.1.2
Operation with an External DC Source .................................................................................................... 6
3.2 Wall Adapter Mode (PD70210A/L) ..................................................................................................... 9
3.3 Flags .................................................................................................................................................... 9
4 Electrical Specifications ................................................................................................................ 10
4.1 Absolute Maximum Ratings .............................................................................................................. 12
4.2 Operating Conditions ....................................................................................................................... 12
4.3 Thermal Properties ........................................................................................................................... 13
5 Pin Descriptions ........................................................................................................................... 14
6 Package Information .................................................................................................................... 19
6.1 16-Pin Plastic DFN, 5 mm × 4 mm .................................................................................................... 19
6.2 38-Pin Plastic QFN, 5 mm × 7 mm .................................................................................................... 20
6.3 Thermal Protection ........................................................................................................................... 21
7 Ordering Information ................................................................................................................... 22
PD-000308062 PD70210/PD70210A/PD70210AL Datasheet Revision 3.0
Front-End PD Interface Controller
1
Revision History
The revision history describes the changes that were implemented in the document. The changes are
listed by revision, starting with the most current publication.
1.1
Revision 3.0
Revision 3.0 was published in October 2019. The following is a summary of the changes in revision 3.0 of
this document.
Updated package marking of the following figures.
Figure PD70210 Pinout (see page 14)
Figure PD70210A Pinout (see page 14)
Figure PD70210AL Pinout (see page 15)
Application Information (see page 6) section was updated.
Ordering Information (see page 22) section was updated.
1.2
Revision 2.0
Revision 2.0 was published in March 2018. The following is a summary of changes in revision 2.0 of this
document.
Document format was updated.
Capacitor between VAUX and VPN_OUT was updated to 4.7 μF according to AN_209 Application
Note. For more information, see Applications (see page 3).
MSL3 rating was added to the storage temperature information. For more information, see Absolute
Maximum Ratings (see page 12).
1.3
Revision 1.51
Revision 1.51 was published in October 2015. The following is a summary of changes in revision 1.51 of
this document.
The 80 mS delay was removed from the Vaux pin description.
Missing UVLO_ON information was added.
1.4
Revision 1.50
Revision 1.50 was published in October 2014. In revision 1.50 of this document, flag description details
were added.
1.5
Revision 1.40
Revision 1.40 was published in June 2014. In revision 1.40 of this document, WA_EN information was
added.
1.6
Revision 1.38
Revision 1.38 was published in April 2014. In revision 1.38 of this document, thermal properties were
added.
PD-000308062 PD70210/PD70210A/PD70210AL Datasheet Revision 3.0
1
Front-End PD Interface Controller
1.7
Revision 1.37
Revision 1.37 was published in January 2014. In revision 1.37 of this document, package information was
corrected.
1.8
Revision 1.36
Revision 1.36 was published in January 2014. In revision 1.36 of this document, IC marking information
was added.
1.9
Revision 1.34
Revision 1.34 was published in December 2013. The following is a summary of changes in revision 1.34
of this document.
A new 38-pin, 5 × 7 QFN package option was added (PD70210AL).
The package drawing was updated and an application diagram for the new package added.
The flag table was updated.
1.10
Revision 1.2
Revision 1.2 was published in November 2013. In revision 1.2 of this document, the PD70210 application
diagram was updated.
1.11
Revision 1.1
Revision 1.1 was published in October 2013. In revision 1.1 of this document, the Vaux description and
cap GND symbol were fixed.
1.12
Revision 1.0
Revision 1.0 was published in June 2013. It was the first publication of this document.
PD-000308062 PD70210/PD70210A/PD70210AL Datasheet Revision 3.0
2
Front-End PD Interface Controller
2
Product Overview
The PD70210, PD70210A, and PD70210AL devices are advanced PD interface controllers (front-end IC)
for powered devices in PoE applications. They support IEEE 802.3af, IEEE 802at, HDBaseT, and general
2-pair or 4-pair configurations.
The PD70210, PD70210A, and PD70210AL devices include an advanced classification block that supports
2, 3, 4, and 6 event classification. Using the SUPP_Sx pins, they also identify which of the four pairs of
the cable actually receive power and generates appropriate flags. The IC features an internal bleeder for
rapidly discharging the input capacitor of the DC–DC converter, so as to ensure fast re-detection and
port power-up in case of sudden removal and re-insertion of the Ethernet cable into RJ-45.
2.1
Features
Supports IEEE 802.3af/at, HDBaseT, and other 2-pair or 4-pair configurations.
PD detection and programmable classification
2, 3, 4, and 6 event classification
Integrated 0.3 Ω isolating (series-pass) FET
In-rush current limiting
Wall adapter support (PD70210A and PD70210AL only)
Less than 5 µA offset current during detection
Lead-free DFN-16/QFN-38 package
2.2
Applications
Single HDBaseT or double, up to 95 W
IEEE 802.3af and 802.3at
Indoor and outdoor PoE
The following illustration shows a typical PD70210 application.
Figure 1 • PD70210 Typical Application
PD-000308062 PD70210/PD70210A/PD70210AL Datasheet Revision 3.0
3
Front-End PD Interface Controller
The following illustration shows a typical PD70210A application.
Figure 2 • PD70210A Typical Application
The following illustration shows a typical PD70210AL application.
Figure 3 • PD70210AL Typical Application
PD-000308062 PD70210/PD70210A/PD70210AL Datasheet Revision 3.0
4
Front-End PD Interface Controller
3
Functional Descriptions
The following illustration shows the functional blocks of the PD70210 device.
Figure 4 • PD70210 Functional Block Diagram
PD-000308062 PD70210/PD70210A/PD70210AL Datasheet Revision 3.0
5
Front-End PD Interface Controller
The following illustration shows the functional blocks of the PD70210A/PD70210AL devices.
Figure 5 • PD70210A/PD70210AL Functional Block Diagram
3.1
Application Information
This section describes the PD70210 application. Consult Microsemi and/or AN-209 “PD70210/
PD70210A Designing a Type-1/2 802.3 or HDBT type 3 PD using PD70210/ PD70210A ICs Application
Note” to ensure latest recommendations.
3.1.1
Peripheral Devices
A 100 nF/100 V capacitor should be placed between the device's VPP and VPNI pins, and located as
close as possible to the device.
A 58 V TVS should be placed between the device's VPP and VPN_IN pins.
A 10K Ω resistor should be placed on SUPP_S1 and SUPP_S2 lines between the diode bridge and
PD70210/A device if 4-pair flags are going to be used.
When WA_EN is used, an 100 nF/10 V capacitor should be placed between WA_EN and the VPN_IN
pin, close to the PD70210/A device.
When not used, WA_EN should be connected to the VPN_IN pin.
A 4.7 µF/25 V capacitor should be placed between Vaux pin and VPN_OUT.
3.1.2
Operation with an External DC Source
PD applications utilizing the PD70210A IC may be operated with an external power source (DC wall
adapter). There are two cases of providing power with an external source, presented in the following
sections.
PD-000308062 PD70210/PD70210A/PD70210AL Datasheet Revision 3.0
6
Front-End PD Interface Controller
3.1.2.1
External Power Input Connected to Application Supply Rails
In this application, the external source is connected to the application’s low-voltage supply rails. The
external source voltage level is dependent on DC–DC output characteristics.
Figure 6 • External Power Input to Supply Rails
3.1.2.2
External Power Input Connected to PD70210A Output
In this application, the external source is connected to the PD device's output connection toward the
application (VPP to VPNOUT). The external source voltage level is dependent on DC–DC input
requirements.
Figure 7 • External Power Input to PD70210A Output
When an external adapter is connected, the PD70210A WA_EN pin is used for disabling the isolation
switch and PSE input power. The WA_EN resistors divider depends on the WA_EN threshold of the
PD70210A.
PD-000308062 PD70210/PD70210A/PD70210AL Datasheet Revision 3.0
7
Front-End PD Interface Controller
The following illustration shows a detailed view of the resistors to be selected in an external adapter
connection.
Figure 8 • External Power Input Resistors Dividers
R1 and R2 sets a rough threshold for Pfet Q1 enable to detect whether an external adapter exists or not.
It should be set to be a lower threshold than PD70210A disable levels. R3 and R4 set the PD70210A
disable threshold. So, in the case of a 36 V–57 V external adapter, the disable setting can be selected as
follows:
Pfet enable threshold = 30 V.
R1 and R2 setting should be so that the value of Q1 VGS < 20 V at the maximum voltage condition of the
external adapter.
When the external adapter voltage is above 30 V, Q1 will be above its VGS TH value.
R1 is selected as 2K Ω.
Using R1 = 2K Ω, Vext_adapter = 30 V, and VGS = maximum VGS TH = 3.5 V, we get the R2 value.
R2 = 15K Ω
R3 and R4 are set to the range of few KΩ–10s of KΩ using the following equation.
PD-000308062 PD70210/PD70210A/PD70210AL Datasheet Revision 3.0
8
Front-End PD Interface Controller
Using R3 = 15K Ω, Vext_adapter = 33.7 V, and PD70210A_WA_EN = 2.4 V as turn-off minimum threshold
from the datasheet, solving the equation gives the valid resistor values for an adapter of 36 V and
above.
R3 = 15K Ω
R4 = 1.15K Ω
3.2
Wall Adapter Mode (PD70210A/L)
PD70210A and PD70210AL support wall adapter functionality. That is, by setting the WA_EN pin high, it
will give priority to the wall adapter jack to supply the load.
The WA_EN pin is used while connecting a wall-adapter voltage between VPP and VPN_OUT by means
of an OR-ing diode. When WA_EN (the wall-adapter enable pin) is held low (referenced to VPN_IN), the
front-end works as a normal PD. When WA_EN is raised high (referenced to VPN_IN), the following
three internal operations are forced.
The isolation FET is turned OFF.
All output flags (AT_FLAG, HD_FLAG, 4P_AT_FLAG, and 4P_HD_FLAG) are activated (low state).
Vaux output voltage is turned ON.
While activating the WA_EN pin, the wall-adapter will supply input voltage for the DC–DC converter.
Having WA_EN at a high state disables detection and classification modes.
3.3
Flags
The following truth table lists the flags status.
Table 1 • Truth Table for Status of Flags
Number of Fingers “N”
SUPP_S1
SUPP_S2
AT_FLAG
HD_FLAG
4P_AT_FLAG
4P_HD_FLAG
1
X
X
Hi Z
Hi Z
Hi Z
Hi Z
2
H
L
0V
Hi Z
Hi Z
Hi Z
2
L
H
0V
Hi Z
Hi Z
Hi Z
2
H
H
0V
Hi Z
0V
Hi Z
3
L
H
0V
0V
Hi Z
Hi Z
3
H
L
0V
0V
Hi Z
Hi Z
3
H
H
0V
0V
0V
Hi Z
4
X
X
0V
0V
0V
Hi Z
5
RESERVED FOR FUTURE
6
X
0V
0V
0V
0V
(N-Event Classification)
X
Note: A flag's state is set only once at port turn on, while VPP-VPNin voltage crosses UVLO ON. If SUPP_S1
and SUPP_S2 pins are changing after port turn on, the flags do not change accordingly.
PD-000308062 PD70210/PD70210A/PD70210AL Datasheet Revision 3.0
9
Front-End PD Interface Controller
4
Electrical Specifications
Unless otherwise specified under conditions, the minimum and maximum ratings stated apply over the
entire specified operating rating of the device. Typical values are either by design or by production
testing at 25 °C ambient. Voltages are with respect to IC ground (VPN_IN).
Table 2 • Input Voltage
Symbol
Parameter
Conditions
Typ
Max
Unit
IIN
IC input current with ICLASS off
VPP = 55 V
1
3
mA
Table 3 • Detection Phase
Symbol
Parameter
Conditions
VDET
Detection range
RDET_TH
RDET disconnect threshold
RDS_DET_ON
On-resistance of internal FET during detection
RDS_DET_OFF
Off-resistance of internal FET after detection
IOFFSET_DET
Input offset current
Min
Typ
Max
Unit
1.1
10.1
V
10.1
12.8
V
50
Ω
2
MΩ
1.1 V ≤ VPP ≤ 10.1 V
5
μA
TJ ≤ 85 °C
VR_DET_ON
RDET reconnection threshold when VPP goes low
2.8
3.0
4.85
V
Min
Typ
Max
Unit
Table 4 • Classification Phase
Symbol
Parameter
Conditions
VCLS_ON
Classification sink turn-on threshold
11.4
13.7
V
VCLS_OFF
Classification sink turn-off threshold
20.9
23.9
V
VHYS_CLS_ON
Hysteresis of VCLS_ON threshold
VMARK_TH
Mark detection threshold (VPP falling)
10.1
11.4
V
IMARK
Current sink in mark event region
0.25
4
mA
ICLASS_CLIM
Current limit of class current
50
80
mA
ICLASS
Classification current sink
3
mA
1
68
RCLASS = not present (Class 0)
V
RCLASS = 133 Ω (Class 1)
9.5
10.5
11.5
RCLASS = 69.8 Ω (Class 2)
17.5
18.5
19.5
RCLASS = 45.3 Ω (Class 3)
26.5
28.0
29.5
RCLASS = 30.9 Ω (Class 4)
38.0
40.0
42.0
Min
Typ
Max
Unit
0.22
0.3
Ω
240
325
mA
Table 5 • Isolation FET
Symbol
Parameter
Conditions
RDSON
On resistance
Total resistance between VPN_IN to VPN_OUT;
ILOAD < 600 mA, –40 °C < TA < 85 °C
ICLIM_INRUSH
Inrush current limit
PD-000308062 PD70210/PD70210A/PD70210AL Datasheet Revision 3.0
105
10
Front-End PD Interface Controller
Symbol
Parameter
OCP
Overcurrent
Conditions
Min
Typ
Max
2.2
Unit
A
protection
ILOAD
Continuous
2
A
operation load1
Note:
1. Actual maximum load is subject to the application environment conditions, such as ambient
temperatures, air flow, mutual heating by other components, and so on.
Table 6 • Undervoltage Lockout
Symbol
Parameter
Min
Max
Unit
UVLOON
Threshold that marks start of inrush phase
36
42
V
UVLOOFF
Threshold where pass-FET turns off as VPP collapses
30.5
34.5
V
Table 7 • DC–DC Input Cap Discharger
Symbol
Parameter
Conditions
Min
Max
Unit
ICAP_DIS
Discharge current
12 V ≤ VPP ≤ 30 V
22.8
60
mA
(PD70210)
7 V ≤ VPP ≤ 12 V
10
Discharge current
7 V ≤ VPP ≤ 30 V
22.8
Time for which discharge circuit is activated
430
ICAP_DIS
mA
60
mA
(PD70210A)
timerdis
Discharge timer
ms
Table 8 • References, Rails, and Logic
Symbol
Parameter
Conditions
Min
Typ
Max
Unit
VAUX
Auxiliary voltage
0 mA < IAUX < 4 mA
9.8
10.5
12.0
V
IAUX_CLIM
Auxiliary current limit
10
32
mA
VREF
Bias current reference voltage
1.17
1.23
V
vFLAG_LO
Low-level flag
0.4
V
0.4
V
For AT_FLAG, HD_FLAG,
1.2
4P_AT_FLAG, 4P_HD_FLAG, IFLAG = 3
mA
V
Power good, active low voltage
tFLAG
tPGOOD
IPGOOD = 3mA
PD70210 only
PGOOD_LO
Delay timer between start of
For AT_FLAG, HD_FLAG,
inrush and flags declared
4P_AT_FLAG, 4P_HD_FLAG
80
ms
Delay timer between start of
PD70210 only
80
ms
For AT_FLAG, HD_FLAG,
5
mA
mA
inrush and power good declared
IFLAG_max
Flag current driving capability
4P_AT_FLAG, 4P_HD_FLAG
I
Power good current capability
PD70210 only
5
SUPP_Sx high-voltage threshold
For SUPP_S1 and SUPP_S2
25
PGOOD_max
VSUPP_HI
PD-000308062 PD70210/PD70210A/PD70210AL Datasheet Revision 3.0
35
V
11
Front-End PD Interface Controller
Table 9 • Wall Adapter Enable Pin
4.1
Symbol
Parameter
Conditions
Min
VIH
Input high logic
PD70210A, PD70210AL only
2.4
VIL
Input low logic
PD70210A, PD70210AL only
Max
Unit
V
0.8
V
Absolute Maximum Ratings
Performance is not necessarily guaranteed over this entire range. These are maximum stress ratings
only. Exceeding these ratings, even momentarily, can cause immediate damage or negatively impact
long-term operating reliability. Voltages are with respect to IC ground (VPN_IN) unless otherwise
specified.
Table 10 • Absolute Maximum Ratings
Parameter
Min
Max
Units
VPP, RDET
–0.3
74
V
PGOOD, AT_FLAG, HD_FLAG, 4P_AT_FLAG, 4P_HD_FLAG referenced to VPN_OUT
–0.3
20
V
SUPP_S1, SUPP_S2
0
VVPP + 1.5
V
RREF, RCLS, WA_EN
–0.3
5
V
Junction temperature
–40
150
°C
260
°C
150
°C
HBM (PD70210)
±1.5
kV
HBM (PD70210A/PD70210AL)
±1.25
kV
MM
±100
V
CDM
±500
V
Lead soldering temperature (40 s, reflow)
Storage temperature, MSL3
ESD rating
4.2
–65
Operating Conditions
Performance is generally guaranteed over this range as described in other electrical characteristics
tables. Voltages are with respect to IC ground (VPN_IN).
Table 11 • Operating Conditions
Min
Max
Units
VPP
0
57
V
Ambient temperature1
–40
85
°C
Detection range
1.1
10.1
V
Mark event range
4.9
10.1
V
Class event range
13.7
20.9
V
Note:
1. Corresponding maximum operating junction temperature is 125 °C.
PD-000308062 PD70210/PD70210A/PD70210AL Datasheet Revision 3.0
12
Front-End PD Interface Controller
4.3
Thermal Properties
The following table shows the thermal properties of the device.
Table 12 • Thermal Properties
Thermal Resistance
Typ
Units
θJA
31
°C/W
θJP
3
°C/W
θJC
4
°C/W
Note: θJX numbers assume no forced airflow. Junction temperature is calculated using TJ = TA + (PD × θJA).
θJA is a function of the PCB construction. The stated number is for a four-layer board in accordance with
JESD-51 (JEDEC).
PD-000308062 PD70210/PD70210A/PD70210AL Datasheet Revision 3.0
13
Front-End PD Interface Controller
5
Pin Descriptions
This section provides the pin information for the PD70210/PD70210A/PD7021AL devices.
The following illustrations show the device pin diagrams (top and bottom views).
Figure 9 • PD70210 Pinout
Figure 10 • PD70210A Pinout
PD-000308062 PD70210/PD70210A/PD70210AL Datasheet Revision 3.0
14
Front-End PD Interface Controller
Figure 11 • PD70210AL Pinout
Note: Shaded pins do not exist.
The following table lists the pin descriptions for the PD70210/PD70210A devices.
Table 13 • PD70210/PD70210A Pin Descriptions
Pin
Pin Name
Pin Name
Number
(PD70210A)
(PD70210)
1
VPP
VPP
Description
Upper rail of the incoming PSE voltage rail, from the positive terminal of the
two OR-ed bridge rectifiers. The corresponding lower PoE rail is VPN_IN.
2
RDET
RDET
Internally connects to VPN_IN during detection phase and disengages after it
is over. A 25K Ω (or 24.9K) 1 % resistor is connected between this pin and
VPP.
3
SUPP_S1
SUPP_S1
Input pin for sensing the voltage on the diode bridge connected to the data
pairs. This pin, along with the SUPP_S2 pin, can be used to distinguish
between 2-pair and 4-pair operation for PSEs that operate in 4 pairs but do
not generate the classification procedure on both pairs, but one pair only.
Signal is referenced to VPN_IN. Place a 10K resistor in the input of this pin.
4
SUPP_S2
SUPP_S2
Input pin for sensing the voltage on the diode bridge connected to the data
pairs. This pin, along with the SUPP_S1 pin, can be used to distinguish
between 2-pair and 4-pair operation for PSEs that operate in 4 pairs but do
not generate the classification procedure on both pairs, but one pair only.
Signal is referenced to VPN_IN. Place a 10K resistor in the input of this pin.
PD-000308062 PD70210/PD70210A/PD70210AL Datasheet Revision 3.0
15
Front-End PD Interface Controller
Pin
Pin Name
Pin Name
Number
(PD70210A)
(PD70210)
5
RREF
RREF
Description
Bias current resistor. A 60.4K 1 % resistor is connected between RREF and IC
ground (VPN_IN).
6
RCLS
RCLS
Sets the class of the PD. Connect RCLASS (programming resistor) between this
pin and IC ground (VPN_IN). Allowed values are 133 Ω, 69.8 Ω, 45.3 Ω, and
30.9 Ω for Class 1, 2, 3, and 4, respectively. If RCLASS is not present, the PD will
draw up to 3 mA during classification, indicating Class 0 (default type 1) to
the PSE. Signal is referenced to VPN_IN.
7, 8
VPN_IN
VPN_IN
Lower rail of the incoming PSE voltage rail, from the negative terminal of the
two OR-ed bridge rectifiers. The corresponding upper PoE rail is VPP.
9, 10
VPN_OUT
VPN_OUT
In effect, the switched ground for establishing continuity to the PWM section
after successful detection, classification, and power-up. It is connected to
the power ground and PWM controller IC’s ground plane of the DC–DC
converter section.
11
AT_FLAG
AT_FLAG
Open drain output. This pin gets actively pulled low when a type 2 PD-PSE
mutually identifies each other through classification. In PD70210A/L, there is
a minimum 80 ms delay from the moment that the input capacitor is fully
charged to this signal activity. In PD70210, this flag asserts once inrush
current is ended. Signal is referenced to VPN_OUT.
12
HD_FLAG
HD_FLAG
Open drain output. This pin gets actively pulled low when a 2-pair HDBaseT
PD-PSE mutually identifies each other through classification. In PD70210A/L,
there is a minimum 80 ms delay from the moment that the input capacitor is
fully charged to this signal activity. In PD70210, this flag asserts once inrush
current is ended. Signal is referenced to VPN_OUT.
13
4P_AT_FLAG
4P_AT_FLAG
Open drain output. This pin gets actively pulled low when a 4-pair version of
a (non-standard) type 2 PD-PSE mutually identifies each other through
classification. In PD70210A/L, there is a minimum 80 ms delay from the
moment that the input capacitor is fully charged to this signal activity. In
PD70210, this flag asserts once inrush current is ended. Signal is referenced
to VPN_OUT.
14
4P_HD_FLAG
4P_HD_FLAG
Open drain output. This pin gets actively pulled low when a 4-pair HDBaseT
PD-PSE mutually identifies each other through classification. In PD70210A/L,
there is a minimum 80 ms delay from the moment that the input capacitor is
fully charged to this signal activity. In PD70210, this flag asserts once inrush
current is ended. Signal is referenced to VPN_OUT.
15
WA_EN
While this input is low (referenced to VPN_IN), the chip works according to
internal flow diagram. When this input is high, it enables the wall adapter
feature. Place from 100 nF/10 V to 1 µF/10 V capacitor from WA_EN to
VPN_IN pins, close to the device. When WA_EN is not used, connect it to
VPN_IN. For more information, see section External Power Input to Supply
Rails (see page 7).
PGOOD
Open drain output. Power good output signal from the front-end stage. This
pin gets actively pulled low when power-on occurs. There is a minimum 80
ms delay from the moment VPort exceeds UVLO ( ~36 V) to this PGOOD
signal being driven low as per the IEEE standard, to allow the PSE to increase
its current limit after power-up is completed. Signal is referenced to
VPN_OUT.
PD-000308062 PD70210/PD70210A/PD70210AL Datasheet Revision 3.0
16
Front-End PD Interface Controller
Pin
Pin Name
Pin Name
Number
(PD70210A)
(PD70210)
16
VAUX
VAUX
Description
Auxiliary voltage rail. This can be used to provide a few mA of startup
current for the PWM controller (typically, 10.5 V). Signal is referenced to
VPN_OUT and is activated once the front-end power-up sequence ends. DC–
DC should not start up until Vaux is active.
EPAD
EPAD
Connected on PCB plane to VPN_IN.
The following table lists the pin descriptions for the PD70210AL device.
Table 14 • PD70210AL Pin Descriptions
Pin
Pin Name
Description
Number
1, 2
NA
3
SUPP_S1
Input pin for sensing the voltage on the diode bridge connected to the data pairs. This pin,
along with the SUPP_S2 pin, can be used to distinguish between 2-pair and 4-pair operation for
PSEs that operate in 4 pairs but do not generate the classification procedure on both pairs, but
one pair only. Signal is referenced to VPN_IN. Place a 10K resistor in the input of this pin.
4
SUPP_S2
Input pin for sensing the voltage on the diode bridge connected to the data pairs. This pin,
along with the SUPP_S1 pin, can be used to distinguish between 2-pair and 4-pair operation for
PSEs that operate in 4 pairs but do not generate the classification procedure on both pairs, but
one pair only. Signal is referenced to VPN_IN. Place a 10K resistor in the input of this pin.
5, 6
NA
7
RREF
Bias current resistor. A 60.4K 1% resistor is connected between RREF and IC ground (VPN_IN).
8
RCLS
Sets the class of the PD. Connect RCLASS (programming resistor) between this pin and IC ground
(VPN_IN). Allowed values are 133 Ω, 69.8 Ω, 45.3 Ω, and 30.9 Ω for Class 1, 2, 3, and 4,
respectively. If RCLASS is not present, the PD will draw up to 3 mA during classification, indicating
Class 0 (default type 1) to the PSE. Signal is referenced to VPN_IN.
9, 10
NA
11, 12
VPN_IN
Lower rail of the incoming PSE voltage rail, from the negative terminal of the two OR-ed bridge
rectifiers. The corresponding upper PoE rail is VPP.
13, 14
NA
15
NC
No connect.
16, 17
VPN_OUT
In effect, the switched ground for establishing continuity to the PWM section after successful
detection, classification, and power-up. It is connected to the power ground and PWM
controller IC’s ground plane of the DC–DC converter section.
18, 19
NA
20, 21,
NC
No connect.
AT_FLAG
Open drain output. This pin gets actively pulled low when a type 2 PD-PSE mutually identifies
22, 23
24
each other through classification. There is a minimum 80 ms delay from the moment that the
input capacitor is fully charged to this signal activity. Signal is referenced to VPN_OUT.
25
HD_FLAG
Open drain output. This pin gets actively pulled low when a 2-pair HDBaseT PD-PSE mutually
identifies each other through classification. There is a minimum 80 ms delay from the moment
that the input capacitor is fully charged to this signal activity. Signal is referenced to VPN_OUT.
PD-000308062 PD70210/PD70210A/PD70210AL Datasheet Revision 3.0
17
Front-End PD Interface Controller
Pin
Pin Name
Description
4P_AT_FLAG
Open drain output. This pin gets actively pulled low when a 4-pair version of a (non-standard)
Number
26
type 2 PD-PSE mutually identifies each other through classification. There is a minimum 80 ms
delay from the moment that the input capacitor is fully charged to this signal activity. Signal is
referenced to VPN_OUT.
27
4P_HD_FLAG
Open drain output. This pin gets actively pulled low when a 4-pair HDBaseT PD-PSE mutually
identifies each other through classification. There is a minimum 80 ms delay from the moment
that the input capacitor is fully charged to this signal activity. Signal is referenced to VPN_OUT.
28
WA_EN
While this input is low (referenced to VPN_IN), the chip works according to internal flow
diagram. When this input is high, it enables the wall adapter feature. Place from 100 nF/10 V to
1 µF/10 V capacitor from WA_EN to VPN_IN pins, close to the device. When WA_EN is not
used, connect it to VPN_IN. For more information, see External Power Input to Supply Rails
(see page 7).
29, 30
NA
31
VAUX
Auxiliary voltage rail. This can be used to provide a few mA of startup current for the PWM
controller (typically, 10.5 V). Signal is referenced to VPN_OUT and is activated once the frontend power-up sequence ends. DC–DC should not start up until Vaux is active.
32, 33
NA
34
NC
No connect.
35
VPP
Upper rail of the incoming PSE voltage rail, from the positive terminal of the two OR-ed bridge
rectifiers. The corresponding lower PoE rail is VPN_IN.
36, 37
NA
38
RDET
Internally connects to VPN_IN during detection phase and disengages after it is over. A 25K Ω
(or 24.9K) 1% resistor is connected between this pin and VPP.
EPAD
Connected on PCB plane to VPN_IN.
PD-000308062 PD70210/PD70210A/PD70210AL Datasheet Revision 3.0
18
Front-End PD Interface Controller
6
Package Information
This section provides information about the two available packages.
Note: Dimensions do not include protrusions; these shall not exceed 0.155 mm (0.006 in.) on any side.
Lead dimension shall not include solder coverage. Dimensions are in millimeters, inches for reference
only.
6.1
16-Pin Plastic DFN, 5 mm × 4 mm
This section shows the 16-pin plastic DFN, 5 mm × 4 mm package and package dimensions.
Figure 12 • DFN Package
Table 15 • Package Dimensions: DFN
Dimension
Millimeters
Inches
Min
Max
Min
Max
A
0.80
1.00
0.031
0.039
A1
0.00
0.05
0.000
0.002
A3
0.20 REF
0.008 REF
D
5.00 BSC
0.197 BSC
E
4.00 BSC
0.157 BSC
D2
4.20
4.45
0.165
0.175
E2
2.30
2.55
0.091
0.100
e
0.50 BSC
0.0197 BSC
K
0.20 MIN
0.008 MIN
L
0.30
0.50
0.012
0.020
b
0.18
0.30
0.007
0.012
PD-000308062 PD70210/PD70210A/PD70210AL Datasheet Revision 3.0
19
Front-End PD Interface Controller
6.2
38-Pin Plastic QFN, 5 mm × 7 mm
This section shows the 38-pin plastic DFN, 5 mm × 7 mm package and package dimensions.
Figure 13 • QFN Package
Table 16 • Package Dimensions: QFN
Dimension
Millimeters
Inches
Min
Max
Min
Max
A
0.80
1.00
0.031
0.039
A1
0.00
0.05
0
0.002
A3
0.20 REF
b
0.18
D
5.00 BSC
0.196 BSC
E
7.00 BSC
0.275 BSC
D2
1.85
2.10
0.073
0.083
E2
3.85
4.10
0.152
0.161
e
0.50 BSC
0.020 BSC
K
1.016
0.040
L
0.30
0.008 REF
0.30
0.50
0.007
0.012
0.012
0.020
PD-000308062 PD70210/PD70210A/PD70210AL Datasheet Revision 3.0
20
Front-End PD Interface Controller
6.3
Thermal Protection
PD70210, PD70210A, and PD70210AL are protected from excessive internal temperatures that may
occur during various operating procedures. Two temperature sensors are located on the chip,
monitoring the temperatures of the isolating switch (pass-FET) and classification current sink.
Each of the over-temperature sensors activates a protection mechanism that will disconnect the
isolation (pass) FET or the classification circuit. This protects the device from being permanently
damaged and from long-term degradation.
PD-000308062 PD70210/PD70210A/PD70210AL Datasheet Revision 3.0
21
Front-End PD Interface Controller
7
Ordering Information
The following table lists the detailed part ordering information for the PD70210 device. All part numbers
are RoHS-compliant, Pb-free, and have an ambient temperature range of –40 °C to 85 °C. All parts also
have 2-pair/4-pair HDBaseT support.
Table 17 • Ordering Information
Part Number
Packaging
Package
Part Marking
Type
PD70210ILD-TR
Tape and
DFN
MSC
reel
5 mm × 4 mm, 0.5 mm
70210
pitch
16 pins
PD70210AILD-TR
PD70210ALILQ-TR
DFN
MSC
5 mm × 4 mm, 0.5 mm
70210A
0.2 mm
Available
0.2 mm
Available
1 mm
YYWWNNN2
QFN
MSC Logo
reel
5 mm × 7 mm, 0.5 mm
70210AL
38 pins
Pins
Z Z e31
Tape and
pitch
Between HV
Support
YYWWNNN2
reel
16 pins
Clearance
Adapter
Z Z e31
Tape and
pitch
Wall
Z Z e41
YYWWNNN2
Notes:
1. ZZ e3: ZZ = Random character with no meaning and e3/4 = 2nd level interconnect.
2. YY = Year; WW = Week; NNN = Trace Code.
PD-000308062 PD70210/PD70210A/PD70210AL Datasheet Revision 3.0
22
Front-End PD Interface Controller
Microsemi makes no warranty, representation, or guarantee regarding the information contained herein or the suitability of its products and services
for any particular purpose, nor does Microsemi assume any liability whatsoever arising out of the application or use of any product or circuit. The
products sold hereunder and any other products sold by Microsemi have been subject to limited testing and should not be used in conjunction with
mission-critical equipment or applications. Any performance specifications are believed to be reliable but are not verified, and Buyer must conduct and
complete all performance and other testing of the products, alone and together with, or installed in, any end-products. Buyer shall not rely on any data
and performance specifications or parameters provided by Microsemi. It is the Buyer's responsibility to independently determine suitability of any
products and to test and verify the same. The information provided by Microsemi hereunder is provided "as is, where is" and with all faults, and the
entire risk associated with such information is entirely with the Buyer. Microsemi does not grant, explicitly or implicitly, to any party any patent rights,
licenses, or any other IP rights, whether with regard to such information itself or anything described by such information. Information provided in this
document is proprietary to Microsemi, and Microsemi reserves the right to make any changes to the information in this document or to any products
and services at any time without notice.
Microsemi Headquarters
One Enterprise, Aliso Viejo,
CA 92656 USA
Within the USA: +1 (800) 713-4113
Outside the USA: +1 (949) 380-6100
Sales: +1 (949) 380-6136
Fax: +1 (949) 215-4996
Email: sales.support@microsemi.com
www.microsemi.com
© 2019 Microsemi. All rights reserved. Microsemi and the Microsemi logo
are trademarks of Microsemi Corporation. All other trademarks and service
marks are the property of their respective owners.
Microsemi, a wholly owned subsidiary of Microchip Technology Inc. (Nasdaq: MCHP), offers a comprehensive portfolio of semiconductor and system
solutions for aerospace & defense, communications, data center and industrial markets. Products include high-performance and radiation-hardened
analog mixed-signal integrated circuits, FPGAs, SoCs and ASICs; power management products; timing and synchronization devices and precise time
solutions, setting the world's standard for time; voice processing devices; RF solutions; discrete components; enterprise storage and communication
solutions; security technologies and scalable anti-tamper products; Ethernet solutions; Power-over-Ethernet ICs and midspans; as well as custom design
capabilities and services. Microsemi is headquartered in Aliso Viejo, California, and has approximately 4,800 employees globally. Learn more at www.
microsemi.com.
PD-000308062
PD-000308062 PD70210/PD70210A/PD70210AL Datasheet Revision 3.0
23