Ag9000-S Datasheet by Arduino

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V2.22 October 2009
Datasheet
Ag9000-S
Power-Over-Ethernet Module
© Silver Telecom 2009 1
Silverte
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PbPb
1. Features
IEEE802.3af compliant
Small SIL package size - 56mm (L) x
14mm (H)
Low output ripple and noise
Input voltage range 36V to 57V
Only one low cost external decoupling
capacitor required
Overload and short-circuit protection
Adjustable Output
High efficiency DC/DC converter
1500V isolation (input to output)
Silvertel “design-in” assistance
2. Description
The Ag9000-S series of modules are designed to extract power from a conventional twisted pair
Category 5 Ethernet cable, conforming to the IEEE 802.3af Power-over-Ethernet (PoE)
standard.
IEEE 802.3af allows for two power options for Category 5 cables and the Ag9000-S series have
two pairs of power inputs pins: - VA1&2 and VB1&2 to accommodate this, see Figure 1.
The Ag9000-S signature and control circuit provides the PoE compatibility signature and power
classification required by the Power Sourcing Equipment (PSE) before applying up to 15W
power to the port. The Ag9000 is compatible with Class 0 to Class 3 equipment.
The high efficiency DC/DC converter operates over a wide input voltage range and provides a
regulated low ripple and low noise output. The DC/DC converter also has built-in overload and
short-circuit output protection.
V2.22 October 2009
Data Sheet Ag9000-S
Power-Over-Ethernet Module
© Silver Telecom 2009 2
Table of Contents
1. Features .......................................................................................................................1
2. Description....................................................................................................................1
3. Ag9000-S Product Selector ..........................................................................................3
4. Pin Description .............................................................................................................4
5. Functional Description ..................................................................................................5
5.1 Inputs.....................................................................................................................5
5.2 PD Signature .........................................................................................................5
5.3 Isolation .................................................................................................................6
5.4 Power Classification ..............................................................................................6
5.5 DC/DC Converter ..................................................................................................7
5.6 Output Adjustment.................................................................................................7
5.7 Typical Connections ..............................................................................................8
6. Typical Application........................................................................................................9
7. Typical Recommendations .........................................................................................10
8. Operating Temperature Range...................................................................................10
9. Protection ...................................................................................................................12
10. Electrical Characteristics.........................................................................................13
10.1 Absolute Maximum Ratings1................................................................................13
10.2 Recommended Operating Conditions..................................................................13
10.3 DC Electrical Characteristics ...............................................................................13
11. Package ..................................................................................................................14
11.1 Ag9000-S ............................................................................................................14
Table of Figures
Figure 1: Block Diagram ......................................................................................................3
Figure 2: Ag9000-S Package Format ..................................................................................3
Figure 3: Typical System Diagram.......................................................................................5
Figure 4: Class Programming Option...................................................................................6
Figure 5: Output Adjustment ................................................................................................7
Figure 6: Typical Connection Diagram.................................................................................8
Figure 7: Typical Application................................................................................................9
Figure 8: Typical Layout.....................................................................................................10
Figure 9: Power Plane Heatsink for Ag9000-S ..................................................................11
Figure 10: Ag9033-S Operating Profile..............................................................................11
Figure 11: Ag9050-S Operating Profile..............................................................................12
Figure 12: Ag9120-S Operating Profile..............................................................................12
V2.22 October 2009
Data Sheet Ag9000-S
Power-Over-Ethernet Module
© Silver Telecom 2009 3
3. Ag9000-S Product Selector
Part Number Nominal Output Voltage Maximum Output Power * Marking
Ag9120-S 12.0V 12 Watts 12
Ag9050-S 5.0V 9 Watts 5
Ag9033-S 3.3V 6 Watts 3
*At 25°C with VIN = 48V
† The versions of the Ag9000-S fully meet the requirements of the RoHS directive 2002/95/EC on the restriction of hazardous
substances in electronic equipment.
Table 1: Ordering Information
Signature
& Control
DC:DC
Converter
Ag9000-S
Input
Input
DC
Output
VA1
VA2
VB1
VB2
Figure 1: Block Diagram
1
Figure 2: Ag9000-S Package Format
V2.22 October 2009
Data Sheet Ag9000-S
Power-Over-Ethernet Module
© Silver Telecom 2009 4
4. Pin Description
Pin # Name Description
1 VA1
RX Input (1). This input pin is used in conjunction with VA2 and
connects to the centre tap of the transformer connected to pins 1
& 2 of the RJ45 connector (RX) - it is not polarity sensitive.
2 VA2
TX Input (2). This input pin is used in conjunction with VA1 and
connects to the centre tap of the transformer connected to pins 3
& 6 of the RJ45 connector (TX) - it is not polarity sensitive.
3 VB1
Direct Input (1). This input pin is used in conjunction with VB2
and connects to pin 4 & 5 of the RJ45 connector - it is not polarity
sensitive.
4 VB2
Direct Input (2). This input pin is used in conjunction with VB1
and connects to pin 7 & 8 of the RJ45 connector - it is not polarity
sensitive.
5 CP1
Class Programming (1). Connect an external resistor to CP2 will
change the current class of the module. With no resistor fitted the
Ag9000 will default to Class 0.
6 CP2
Class Programming (2). Connect an external resistor to CP1 will
change the current class of the module. With no resistor fitted the
Ag9000 will default to Class 0.
7 GND Ground. The ground return for the +VDC output.
8 +VDC
DC Output. This pin provides the regulated output from the
DC/DC converter.
9 ADJ
Output Adjust. The output voltage can be adjusted from its
nominal value, by connecting an external resistor from this pin to
either the +VDC pin or the GND pin.
10 IC Internal Connection. Do not connect to this pin.
J\/“‘\ /’\ / \
V2.22 October 2009
Data Sheet Ag9000-S
Power-Over-Ethernet Module
© Silver Telecom 2009 5
5. Functional Description
5.1 Inputs
The Ag9000-S has two internal bridge rectifiers (see Figure 1: Block Diagram) connected
to the VA1-VA2 and the VB1-VB2 inputs. This allows the Ag9000-S to be compatible with
equipment that use the different power options, see Figure 3: Typical System Diagram. It
is important that the PSE does not apply power to the VA and VB outputs at the same time
(Refer to IEEE802.3af for more information).
PSE
(48V) Ag9000-S
DC
OUTPUT
VA1 VB1
VA2 VB2
+/-
+/-
POWERED DEVICE
(PD)
POWER SOURCING
EQUIPMENT (PSE)
RX
TX
TX
RX
4
5
1
2
3
6
7
8
4
5
1
2
3
6
7
8
*
* The VA and VB inputs must not be used at the same time
*
+
-
**
Figure 3: Typical System Diagram
5.2 PD Signature
When the Ag9000-S is connected to the Cat 5e cable, it will automatically present a
Powered Device (PD) signature to the Power Sourcing Equipment (PSE) or Midspan
Equipment, when requested. The equipment will then recognise that a powered device is
connected to that line and supply power.
V2.22 October 2009
Data Sheet Ag9000-S
Power-Over-Ethernet Module
© Silver Telecom 2009 6
5.3 Isolation
To meet the safety isolation requirements of IEEE802.3af section 33.4.1 a Powered
Device (PD) must pass the electrical strength test of IEC 60950 sub clause 6.2. This calls
for either a) 1500VAC test or b) 1500V impulse test. The Ag9000-S is specified to meet
the 1500V impulse test. It is also important that the tracks on either side of the isolation
barrier have at least a 3mm clearance, see Figures 8 & 9 and Section 11 for more
information.
5.4 Power Classification
This is optional from the PSE and is used for power management. The Ag9000-S allows
the current class to be externally programmed by connecting a resistor between the CP1
and CP2 pins, see Figure 4: Class Programming Option. If no resistor is fitted the Ag9000-
S will default to Class 0, a full list of programming resistor values are shown in Table 2:
Class Programming.
CLASS Programming
Resistance (Ohms)
Min Power
(W)
Max Power
(W)
0 Do not fit 0.44 12.95
1 698 ±1% 0.44 3.84
2 383 ±1% 3.84 6.49
3 249 ±1% 6.49 12.95
4 TBD Reserved Reserved
Table 2: Class Programming
Ag9000-S
CP2
CP1
Class Programming
option
R
Figure 4: Class Programming Option
V2.22 October 2009
Data Sheet Ag9000-S
Power-Over-Ethernet Module
© Silver Telecom 2009 7
5.5 DC/DC Converter
The Ag9000-S’s DC/DC converter provides a regulated low ripple and low noise output,
that has built-in overload and short-circuit output protection - see Table 1: Ordering
Information for voltage and power ratings.
5.6 Output Adjustment
The Ag9000-S has an ADJ pin, which allows the output voltage to be increased or
decreased from its nominal value.
Figure 5: Output Adjustment shows how the ADJ pin is connected: -
Ag9000-S
+VDC
GND
ADJ
Ag9000-S
+VDC
GND
ADJ
Increasing the output
voltage from nominal
Reducing the output
voltage from nominal
R
R
Figure 5: Output Adjustment
Reducing the output voltage, connect R between ADJ and +VDC
Value of R Ag9033-S output Ag9050-S output Ag9120-S output
Open Circuit 3.30V 5.00V 12.00V
100k Ohms - 4.75V 10.00V
0 Ohms - 4.50V 9.00V
Increasing the output voltage, connect R between ADJ and GND
Value of R Ag9033-S output Ag9050-S output Ag9120-S output
Open Circuit 3.30V 5.00V 12.00V
100k Ohms 3.40V 5.25V 12.75V
0 Ohms 4.70V 5.50V 13.15V
Table 3: Output Adjustment Resistor (R) Value
HI #/ ‘x_ fixH/ ‘1_ 4f
V2.22 October 2009
Data Sheet Ag9000-S
Power-Over-Ethernet Module
© Silver Telecom 2009 8
5.7 Typical Connections
The Ag9000-S only requires one external component as shown in Figure 6: Typical
Connection Diagram, a minimum of 470µF is recommended.
The value of C1 will be related to the maximum load step change that the output needs to
drive. For example, in an application were the output needs to cope with a 1.8 Amp load
step change, a minimum of 1000µF should be used. This can be a standard low cost
electrolytic and does not need to be a low ESR type.
Figure 6 shows a 16V capacitor that would cover all product variants up to and including
the Ag9120-S, see Table 1: Ordering Information.
The Ag9000-S must always supply a minimum current (~20mA) to ensure that the on-
board dc/dc converter functions normally. The resistor RB shown across the output must
be fitted if the minimum current drawn is <20mA. Failure to meet this requirement may
result in permanent damage to the Ag9000-S.
The Class programming and the Output Adjust inputs are optional and are provided to give
great flexibility to the Ag9000-S product range. Further information on using these inputs
can be found in sections Power Classification and Output Adjustment.
Ag9000-S
RX
TX
4
5
1
2
3
6
7
8
VA1
VB1
VA2
VB2
CP1
CP2
+VDC
GND
ADJ
Output
RJ-45
C1
470µF 16V
+
RB
RB (0.25W)
Ag9033-S = 160R
Ag9050-S = 240R
Ag9120-S = 620R
Figure 6: Typical Connection Diagram
Power-Over-Ethernet Module example shown in Figure 7: connected to the inputs of a on each output that supports an port 2 is connected to a AgQOOO-S. When the midspan midspan w heck each output for a themselves as PoE enabled thes peripherals. signature and the midspan will midspan will continuously monitor removed. l] I] l] l] I] l] I] DD {JD {JD {JD {JD {JD DD {JD ,, \ AgQOOO-S \
V2.22 October 2009
Data Sheet Ag9000-S
Power-Over-Ethernet Module
© Silver Telecom 2009 9
6. Typical Application
The Ag9000-S can be used in numerous applications. In the example shown in Figure 7:
Typical Application, the data outputs from the switch are connected to the inputs of a
midspan. The midspan will then add power (to the data) on each output that supports
Power over Ethernet (PoE).
In this example port 1 is connected to an ethernet camera and port 2 is connected to a
wireless access point, both of these devices have a built-in Ag9000-S. When the midspan
is switched on (or when the device is connected), the midspan will check each output for a
PoE signature. On ports 1 and 2 the Ag9000-S will identify themselves as PoE enabled
devices and the midspan will supply both data and power to these peripherals.
The other ports (shown in this example) will not have a PoE signature and the midspan will
only pass the data through to these peripherals. The midspan will continuously monitor
each output to see if a PoE enabled device has been added or removed.
Ag9000-S
Ethernet
Camera
Wireless
Access Point
Midspan Equipment
Switch
Patch Cables
PC's and other non
PoE peripherals
18
18
Figure 7: Typical Application
CLASS R2 R3 AgSOOO-S |R1I Outpm Voltage Isolation Barrier (keep out area) ' Heal dlssxpalmn Mme Ageoooos can he unmoved by mcrezsmg me 5mm; are: aithe MM: and mm mm mks
V2.22 October 2009
Data Sheet Ag9000-S
Power-Over-Ethernet Module
© Silver Telecom 2009 10
7. Typical Recommendations
Figure 8: Typical Layout gives an example of the tracking needed for the Ag9000-S. R1,
R2 and R3 are optional components, RB is only needed if the minimum output current is
<20mA. C1 needs to be positioned close to the output pins of the Ag9000-S as possible to
minimise the current loop. The thermal performance of the Ag9000-S can be improved by
increasing the surface area of the output tracks (+VDC and GND). This is not applicable if
the Ag9000-S is in a socket.
Figure 8: Typical Layout
8. Operating Temperature Range
Because the Ag9000-S is a power component, it will generate heat, so it is important that
this be taken into consideration at the design stage.
The heart of the Ag9000-S is a DC/DC converter, which like any other power supply will
generate heat. The amount of heat generated by the module will depend on the load it is
required to drive and the input voltage supplied by the PSE. The information shown within
this section of datasheet is referenced to a nominal 48Vdc input voltage supplied by the
PSE.
The Ag9000-S has a maximum ambient operating temperature of 70OC see Figure 10,
Figure 11 & Figure 12. These results are in still air without any heatsinking, the
performance of the Ag9000-S can be improved by forcing the airflow over the part or by
using a heatsink (see the Ag9000-S application note on heatsinking for more information).
The output stage of the Ag9000-S has a built-in thermal protection circuit, to prevent the
module from being damaged if operated beyond its power / temperature specification.
Because each application is different it is impossible to give fixed and absolute thermal
recommendations. However it is important that any enclosure used has sufficient
ventilation for the Ag9000-S and a direct airflow if possible.
i Power fl AgSOOO-S 1\ summer“ c‘earanoe (lama {he mama mpm harks Ia mamlam lhe150W \smanon banev J 0 m 0 VA&VB R1 3 ‘3 '"pL‘tSCLASs \, 1:0)?le DR 0 n g r: :7 Keep om aea, ensure we _ aulpunrackshme 5‘ U 0 3 D o
V2.22 October 2009
Data Sheet Ag9000-S
Power-Over-Ethernet Module
© Silver Telecom 2009 11
One simple method for drawing some of the heat away from the Ag9000-S is shown in
Figure 9. Power planes connected to the +VDC and GND pins of the Ag9000-S can be
used to draw heat away from the DC/DC converter via the output pins.
These power planes must be on the outer layers of the PCB and the Ag9000-S must not
be fitted into a socket.
Figure 9: Power Plane Heatsink for Ag9000-S
Figure 10, Figure 11 & Figure 12 show the maximum ambient temperature under different
load conditions. These figure have been recorded in a sealed enclosure (in still air) using a
heater element to elevate the ambient temperature (within the enclosure).
-20-10 0 10203040506070
1
4
2
5
3
Output Power (W)
Ambient Temperature (°C)
6
Figure 10: Ag9033-S Operating Profile
V2.22 October 2009
Data Sheet Ag9000-S
Power-Over-Ethernet Module
© Silver Telecom 2009 12
-20-10 0 10203040506070
1
4
2
5
3
Output Power (W)
Ambient Temperature (°C)
6
7
8
9
Figure 11: Ag9050-S Operating Profile
-20-10 0 10203040506070
1
4
2
5
3
Output Power (W)
Ambient Temperature (°C)
6
7
8
9
10
11
12
Figure 12: Ag9120-S Operating Profile
9. Protection
The Ag9000 must be protected from over-voltages exceeding the 80V maximum rated
surge input voltage. An inexpensive but effective solution can be achieved by connect
Tranzorb diodes across each of the inputs; see Apps Note “ANX-POE-Protection”.
V2.22 October 2009
Data Sheet Ag9000-S
Power-Over-Ethernet Module
© Silver Telecom 2009 13
10. Electrical Characteristics
10.1 Absolute Maximum Ratings
1
Parameter Symbol Min Max Units
1 DC Supply Voltage VCC -0.3 60 V
2 DC Supply Voltage Surge for 1ms VSURGE -0.6 80 V
3 Storage Temperature TS -40 +100
OC
Note 1: Exceeding the above ratings may cause permanent damage to the product. Functional operation under these conditions is not
implied. Maximum ratings assume free airflow.
10.2 Recommended Operating Conditions
Parameter Symbol Min Typ Max Units
1 Input Supply Voltage1 V
IN 36 48 57 V
2 Under Voltage Lockout VLOCK 30 36 V
3 Operating Temperature2 T
OP -20 25 70 Ta /
OC
Note 1: With minimum load
2: See Section Operating Temperature Range
10.3 DC Electrical Characteristics
DC Characteristic Sym Min Typ1 Max Units Test
Comments
1 Nominal Output Voltage +VDC
3.1
4.75
11.5
3.3
5
12
3.5
5.25
12.5
V
V
V
Ag9033-S
Ag9050-S
Ag9120-S
2 Output Current (VIN = 48V) PWR
1.8
1.8
1
A
A
A
Ag9033-S
Ag9050-S
Ag9120-S
3 Line Regulation VLINE 0.1 % @ 50% Load
4 Load Regulation VLOAD 0.5 % @ VIN=48V
5 Output Ripple and Noise VRN 100 mVp-p @ Max load2
6 Minimum Load RLOAD 100 mA for specified
regulation3
7 Short-Circuit Duration4 T
SC sec
8 Efficiency EFF 75 %
Ag9050-S @
50% Load
9 Isolation Voltage (I/O) VISO 1500 VPK Impulse Test
10 Temperature Coefficient TC 0.02 % Per OC
Note 1: Typical figures are at 25°C with a nominal 48V supply and are for design aid only. Not Guaranteed
2: The output ripple and noise can be reduced with an external filter, see application note.
3: Can be used with a minimum load of 20mA with reduced voltage regulation.
4: Continuous short circuit duration is applicable at 25'C ambient temperature in free air. At higher temperatures or with restricted
airflow (e.g. in a sealed enclosure) the duration will need to be limited to avoid overheating.
56.0 > 18.0 (max) 3 o ,{ 17-0 Q Ag9ooo-s 17 1 fill V lfl—Fffi i 3.0 + ‘+o.e=o.05 % + w %T 7.0(max) 1.810.25 25410.05 30.481025 0.061 .05 (Recommended PCB hole diameter = 1.1 1 0.05) Dimensions (in mm) are nominal unless otherwise stated
V2.22 October 2009
Data Sheet
Ag9000-S
Power-Over-Ethernet Module
© Silver Telecom 2009 14
11. Package
11.1 Ag9000-S
14.0
Information published in this datasheet is believed to be correct and accurate. Silver Telecom assumes no liability for errors which may
occur or for liability otherwise arising out of use of this information or infringement of patents which may occur as a result of such use.
No license is granted by this document under patents owned by Silver Telecom or licensed from third parties by Silver Telecom. The
products, their specification and information appearing in this document are subject to change by Silver Telecom without notice.

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