Tinycontrol POESWG-030 User manual
Manual
4F1G Switch
4 ports 10/100Mb PoE + 1 port 1Gb
HW:2.1 SW:1.08
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4F1G Switch - HW:2.1 SW:1.08 – POESWG-030
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4F1G Switch
Managed PoE switch is unique device designed as combination of management switch,
PoE injector and in/out controller.
In opposite to typical PoE switches this one don’t has xed voltage output. This parame-
ter depend on voltage of connected supply. Thanks it switch is very universal and what is
very important power supply uninterruptible is very easy to implementation. Just need
to connect buered uninterruptible power supply with battery (also in oer in our shop).
This solution allow for much higher possible output current, limited to 2A per port.
It is important for momentary spikes of current, often occurring during start up. However
should be remember that high current can damage RJ45 connectors quick - they are not
designed for this applications. All supply parameters can be monitored online, also ICMP
packets returns is monitored by watchdog, if ping don’t reply, output can be reseted.
Switch characterised by unique design - it is only 31mm deep and 1U high. So could be
installed in typical 10” rack as well as in very at, small cabinets for example on corridors.
Other useful feature are 2 logical inputs for monitoring switch surrounds (for ex cabinet
doors) and one voltage output (up to 1A) to remote power dierent devices.
MAIN FEATURES:
•management by WWW or SNMP v2. (all SNMP features available after upgrade)
•rmware upgrade remotely by TFTP
•read data in real time without refresh the page
•ON/OFF power to four passive PoE ports directly from a web page or SNMP
•Watchdog IP on all ports (email notication, trap, reset of power on PoE)
•1 analog measure input
•2 logical inputs
•environment temperature measurement
•voltage measurement: resolution, accuracy ± 0.1 V
•current measurement on each port and consumed by all
•date and time from NTP or manual
•email alert when Watchdog activation
•automatic sending of SNMP TRAP (VCC, temperature, INPD, INPA)
•supported protocols: HTTP, SNMP, SMTP, NTP, ICMP, DNS, DHCP.
•4 ports 100/10Mbit
•1 port 1Gbit
•limit power on the PoE port when 2A current is exceeded.
•VLAN support
•optional mounting on DIN rail
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TECHNICAL SPECIFICATIONS
•power supply voltage: 9÷53V
•current consumption at one POE port: 2A (recommended for ling life 1A)
•total power on all ports: ≤ 6A
•power consumption of the switch: <1W
•protection against reverse polarity: YES
•maximal current from transistor output: 1A
•work temperature: –20 do +85 °C
•weight: 0,350kg
•housing high: 1U
•housing sizes without holders: 146 (173 with holders) x 45 x 31 mm
PORTS AND COMPONENTS
POWER – power over plug DC5,5 / 2.1 or terminal block
LED PoE – LED orange, shining denotes activating the power per port PoE
LED LINK – LED green lights means the active link, blinking - data transfer RX / TX
INP1D, INP2D –digital inputs for monitoring, eg. power supply buer, max input voltage 24V.
OUT_T – voltage output transistor performance 1A. The voltage represents switch power
supply voltage.
INP1A – analog input for voltage measurement in the range 0÷3,3V
RESET – press button (eg. paper clip), power on and holding the button down
for approx. 5 seconds restores the factory settings.
(*) - RESET procedure in older versions of the switch (no hole) is described on page 14.
Default user and password is„admin”
IP adress is 192.168.1.200
RESET button hole*
POWER
OUT_T
LED PoE LED LINK
INP1D
INP2D
INP1A
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4F1G Switch - HW:2.1 SW:1.08 – POESWG-030
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Management by WWW.
1. STATUS
In this window is a summary presented the switch current status.
PoE on/o – species the state of power supply on PoE port: green ON, a red OFF.
PoE [mA] – shows the current consumption of the device.
PoE [W] – shows the power consumption of the device.
INP1A [V] – shows the voltage at the input INP1A.
INP1D State – shows the status of the input INP1D.
INP2D State – shows the status of the input INP2D.
Out_T on/o – shows the status of output Out_T.
4F1G Switch - HW:2.1 SW:1.08 – POESWG-030
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2. POE
3. PORTS
any description
max 8 characters
The value in seconds
to return to the OFF state
after switching
PoE POWER ON
The value of the current
drawn by the device
per port PoE
PoE POWER
ON/OFF
selection switches
Power on the PoE port
after reboot / start switch
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4F1G Switch - HW:2.1 SW:1.08 – POESWG-030
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4. VLAN
Inclusion of of isolation between ports:
In order to isolate trac between the ports, so that the trac was directed only to the
individual ports 1÷4, for example, only port Gigabit P5 you can use the Port based VLAN
Member.
For the example above, only the ports select „M” (if we are able to manage the switch
from each port) and port „5”. For the port „5” we leave all selections (except P5). Then
memorize the setting with „Save” button.
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5. WATCHDOG
Email send – sends an e-mail when the watchdog work (will restart power supply on
a port PoE). E-mail contains information about the number of the current restart and
a maximum permissible number of restarts and time of occurrence.
ICMP time – it shows in milliseconds latency response to an ICMP packet.
ICMP fail – number of unanswered response to a query ICMP, followed by a triggering of
the watchdog.
ICMP wait time – response time in seconds.
ICMP send period – the period of time in seconds between successive queries ICMP.
Wait time after restart – the period of time in seconds before sending another query
ICMP after activation of the watchdog.
Restart time – the period of time in seconds for how long it will turn o the power at the
port PoE after activation of the watchdog.
Max restart – maksymalna liczba restartów (zadziałań watchdoga). Gdy ta liczba zostanie
osiągniętą watchdog na danym porcie zostanie wyłączony, żeby w nieskończoność nie
restartować urządzenia, które i tak nie ma zamiaru poprawnie pracować.
POE state – determines the state of power supply to PoE port: red OFF, green ON.
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4F1G Switch - HW:2.1 SW:1.08 – POESWG-030
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6. SWITCH SETTINGS
The user name and
password to access
the module.
You can disable
authorization.
NTP Server Settings,
Time Interval - time
in minutes, at what time
will be synchronized
with the server.
network settings
conguration.
4F1G Switch - HW:2.1 SW:1.08 – POESWG-030
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Congure email
account to send
notications.
Bootloader start
– toggles the switch
in software upgrade mode
Password for SNMP
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4F1G Switch - HW:2.1 SW:1.08 – POESWG-030
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Software update
In the event that there is a new version of the software it is possible to load such software
for the device.
To install the new rmware to the switch should move it in bootloader mode. The easiest
way to do it from the menu Switch Settings/Others:
1. the „Upgrade Enabled” in the Switch Settings / Access must be enabled.
2. through the „Bootloader start” button.
We have 60 seconds to start uploading via FTP. This will take about 6÷7 seconds and after
this time, the switch will reboot automatically. If at uploading was a mistake, bootlaoder
mode will automatically restart until the correct upload le.
Bootloader start
– toggles the switch
in software upgrade mode
Upgrade Enabled
– It must be enabled to allow the upload
new software
Contents of the instructions is regularly checked and if necessary corrected. If the observations errors or
inaccuracies, please contact us. It can not be ruled out that, despite best eorts, however, some discrepancies
arose. To get the latest version, please contact us or distributors.
© Konsorcjum ATS Sp.J.
Copying, duplication, reproduction whole or in part
without the consent of the owner is prohibited.
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SNMP OID NUMBERS
A group of voltages, currents, inputs, PoE
iso.3.6.1.4.1.7616.1.1.0 = INTEGER: 125 – supply voltage, divide the result by 10
iso.3.6.1.4.1.7616.1.1.1 = INTEGER: 0 – INP1A, voltage, divide the result by 10
iso.3.6.1.4.1.7616.1.1.2 = INTEGER: 387 – temperature, divide the result by 10
iso.3.6.1.4.1.7616.1.1.3 = INTEGER: 1 – INP1D
iso.3.6.1.4.1.7616.1.1.4 = INTEGER: 1 – INP2D
iso.3.6.1.4.1.7616.1.2.0 = INTEGER: 1 – PoE port1 ON/OFF
iso.3.6.1.4.1.7616.1.2.1 = INTEGER: 1 – PoE port2 ON/OFF
iso.3.6.1.4.1.7616.1.2.2 = INTEGER: 1 – PoE port3 ON/OFF
iso.3.6.1.4.1.7616.1.2.3 = INTEGER: 1 – PoE port4 ON/OFF
iso.3.6.1.4.1.7616.1.2.4 = INTEGER: 0 – PoE OUT_T ON/OFF
iso.3.6.1.4.1.7616.1.3.0 = INTEGER: 0 – PoE port1 current mA
iso.3.6.1.4.1.7616.1.3.1 = INTEGER: 21 – PoE port2 current mA
iso.3.6.1.4.1.7616.1.3.2 = INTEGER: 53 – PoE port3 current mA
iso.3.6.1.4.1.7616.1.3.3 = INTEGER: 0 – PoE port4 current mA
iso.3.6.1.4.1.7616.1.3.4 = INTEGER: 74 – PoE the sum of currents from p1 to p4 mA
iso.3.6.1.4.1.7616.1.4.0 = INTEGER: 0 – PoE port1 power mW
iso.3.6.1.4.1.7616.1.4.1 = INTEGER: 262 – PoE port2 power mW
iso.3.6.1.4.1.7616.1.4.2 = INTEGER: 662 – PoE port3 power mW
iso.3.6.1.4.1.7616.1.4.3 = INTEGER: 0 – PoE port4 power mW
iso.3.6.1.4.1.7616.1.4.4 = INTEGER: 925 – PoE the sum of power from p1 to p4 mW
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4F1G Switch - HW:2.1 SW:1.08 – POESWG-030
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iso.3.6.1.4.1.7616.2.1.0 = INTEGER: 1 – Port1 On/OFF
iso.3.6.1.4.1.7616.2.1.1 = INTEGER: 1 – Port2 On/OFF
iso.3.6.1.4.1.7616.2.1.2 = INTEGER: 1 – Port3 On/OFF
iso.3.6.1.4.1.7616.2.1.3 = INTEGER: 1 – Port4 On/OFF
iso.3.6.1.4.1.7616.2.1.4 = INTEGER: 1 – Port5 On/OFF
iso.3.6.1.4.1.7616.2.2.0 = INTEGER: 0 – Port1 link
iso.3.6.1.4.1.7616.2.2.1 = INTEGER: 1 – Port2 link
iso.3.6.1.4.1.7616.2.2.2 = INTEGER: 1 – Port3 link
iso.3.6.1.4.1.7616.2.2.3 = INTEGER: 1 – Port4 link
iso.3.6.1.4.1.7616.2.2.4 = INTEGER: 1 – Port5 link
iso.3.6.1.4.1.7616.2.3.0 = INTEGER: 10 – Port1 speed
iso.3.6.1.4.1.7616.2.3.1 = INTEGER: 100 – Port2 speed
iso.3.6.1.4.1.7616.2.3.2 = INTEGER: 10 – Port3 speed
iso.3.6.1.4.1.7616.2.3.3 = INTEGER: 10 – Port4 speed
iso.3.6.1.4.1.7616.2.3.4 = INTEGER: 1000 – Port5 speed
iso.3.6.1.4.1.7616.2.4.0 = INTEGER: 0 – Port1 full/half duplex
iso.3.6.1.4.1.7616.2.4.1 = INTEGER: 1 – Port2 full/half duplex
iso.3.6.1.4.1.7616.2.4.2 = INTEGER: 0 – Port3 full/half duplex
iso.3.6.1.4.1.7616.2.4.3 = INTEGER: 1 – Port4 full/half duplex
iso.3.6.1.4.1.7616.2.4.4 = INTEGER: 1 – Port5 full/half duplex
iso.3.6.1.4.1.7616.2.5.0 = INTEGER: 0 – Port1 TX rate B/s
iso.3.6.1.4.1.7616.2.5.1 = INTEGER: 2406 – Port2 TX rate B/s
iso.3.6.1.4.1.7616.2.5.2 = INTEGER: 0 – Port3 TX rate B/s
iso.3.6.1.4.1.7616.2.5.3 = INTEGER: 349 – Port4 TX rate B/s
iso.3.6.1.4.1.7616.2.5.4 = INTEGER: 0 – Port5 TX rate B/s
iso.3.6.1.4.1.7616.2.6.0 = INTEGER: 0 – Port1 RX rate B/s
iso.3.6.1.4.1.7616.2.6.1 = INTEGER: 2470 – Port2 RX rate B/s
iso.3.6.1.4.1.7616.2.6.2 = INTEGER: 0 – Port3 RX rate B/s
iso.3.6.1.4.1.7616.2.6.3 = INTEGER: 0 – Port4 RX rate B/s
iso.3.6.1.4.1.7616.2.6.4 = INTEGER: 0 – Port5 RX rate B/s
Grupa statusu portów
4F1G Switch - HW:2.1 SW:1.08 – POESWG-030
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iso.3.6.1.4.1.7616.3.1.0 = INTEGER: 0 – Port1 Watchdog On/OFF
iso.3.6.1.4.1.7616.3.1.1 = INTEGER: 0 – Port2 Watchdog On/OFF
iso.3.6.1.4.1.7616.3.1.2 = INTEGER: 0 – Port3 Watchdog On/OFF
iso.3.6.1.4.1.7616.3.1.3 = INTEGER: 0 – Port4 Watchdog On/OFF
iso.3.6.1.4.1.7616.3.1.4 = INTEGER: 0 – OUT_T Watchdog On/OFF
iso.3.6.1.4.1.7616.3.2.0 = INTEGER: 0 – Port1 Watchdog email On/OFF
iso.3.6.1.4.1.7616.3.2.1 = INTEGER: 0 – Port2 Watchdog email On/OFF
iso.3.6.1.4.1.7616.3.2.2 = INTEGER: 1 – Port3 Watchdog email On/OFF
iso.3.6.1.4.1.7616.3.2.3 = INTEGER: 1 – Port4 Watchdog email On/OFF
iso.3.6.1.4.1.7616.3.2.4 = INTEGER: 0 – OUT_T Watchdog email On/OFF
iso.3.6.1.4.1.7616.3.3.0 = INTEGER: 0 – Port1 Watchdog ping fail count
iso.3.6.1.4.1.7616.3.3.1 = INTEGER: 0 – Port2 Watchdog ping fail count
iso.3.6.1.4.1.7616.3.3.2 = INTEGER: 0 – Port3 Watchdog ping fail count
iso.3.6.1.4.1.7616.3.3.3 = INTEGER: 0 – Port4 Watchdog ping fail count
iso.3.6.1.4.1.7616.3.3.4 = INTEGER: 0 – OUT_T Watchdog ping fail count
iso.3.6.1.4.1.7616.3.4.0 = INTEGER: 0 – Port1 Watchdog restrat count
iso.3.6.1.4.1.7616.3.4.1 = INTEGER: 0 – Port2 Watchdog restrat count
iso.3.6.1.4.1.7616.3.4.2 = INTEGER: 0 – Port3 Watchdog restart count
iso.3.6.1.4.1.7616.3.4.3 = INTEGER: 0 – Port4 Watchdog restart count
iso.3.6.1.4.1.7616.3.4.4 = INTEGER: 0 – OUT_T Watchdog restart count
Grupa watchdog
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4F1G Switch - HW:2.1 SW:1.08 – POESWG-030
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1. You should upgrade software to the latest available version. For this purpose, with the
power o you have to put the jumper on pins marked in red. After powering the unit
enters the service mode and will wait about 60 seconds for the le with the new software
version. The le should be sent to the device using TFTP. The device will be available at
last set IP address. After a successful le upload, wait about 30 seconds for software in-
stallation.
The procedure for restoring the factory settings
in older versions of the switch (without the RESET button hole).
pins to short-circuit
2. After updating the software in order to restore default settings before connecting the
power supply, put the jumper on pins marked in red. Then, connect the power and after
about 5 seconds, the jumper can be removed. Switch has been restored to factory set-
tings and is available under the default IP address (192.168.1.200).
pins to short-circuit
4F1G Switch - HW:2.1 SW:1.08 – POESWG-030
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Konsorcjum ATS Sp.J.
ul. Żeromskiego 75, 26–600 Radom, POLAND
tel./fax +48 48 366 00 30, e-mail: sales@ledon.eu
www.tinycontrol.eu, www.ledats.pl, www.wirelesslan.pl, www.ats.pl
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