SAF tehnika Integra-W Series User manual
User manual
Integra-W/WS Full Outdoor Unit
VER 1.01
FW 2.6.6
SAF Tehnika JSC
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Proprietary notice
The information presented in this guide is the property of SAF Tehnika, JSC. No part of this
document may be reproduced or transmitted without proper permission from SAF Tehnika,
JSC.
The specifications or information contained in this document are subject to change without
notice due to continuing introduction of design improvements. If there is any conflict
between this document and compliance statements, the latter will supersede this document.
SAF Tehnika, JSC has no liability for typing errors in this document or damages of any kind
that result from the use of this document.
To get up to date information about accessories and their availability, please contact sales
representative.
FODU does not contain serviceable parts. Warranty will not be applicable
in the event FODU has been hermetically unsealed.
SAF Tehnika, JSC is not responsible for any radio or TV interference
caused by unauthorized modifications to this equipment. Such
modifications could void the user's authority to operate the equipment.
This device complies with part 15 of the FCC Rules. Operation is subject to the following
two conditions: (1) This device may not cause harmful interference, and (2) this device must
accept any interference received, including interference that may cause undesired operation.
Note: This equipment has been tested and found to comply with the limits for a Class B
digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide
reasonable protection against harmful interference in a residential installation. This
equipment generates, uses and can radiate radio frequency energy and, if not installed and
used in accordance with the instructions, may cause harmful interference to radio
communications. However, there is no guarantee that interference will not occur in a
particular installation. If this equipment does cause harmful interference to radio or
television reception, which can be determined by turning the equipment off and on, the user
is encouraged to try to correct the interference by one or more of the following measures:
−Reorient or relocate the receiving antenna.
−Increase the separation between the equipment and receiver.
−Connect the equipment into an outlet on a circuit different from that to which the
receiver is connected.
−Consult the dealer or an experienced radio/TV technician for help.
This device complies with Industry Canada licence-exempt RSS standard(s). Operation is
subject to the following two conditions: (1) this device may not cause interference, and (2)
this device must accept any interference, including interference that may cause undesired
operation of the device.
Le présent appareil est conforme aux CNR d'Industrie Canada applicables aux appareils
radio exempts de licence. L'exploitation est autorisée aux deux conditions suivantes : (1)
l'appareil ne doit pas produire de brouillage, et (2) l'utilisateur de l'appareil doit accepter tout
brouillage radioélectrique subi, même si le brouillage est susceptible d'en compromettre le
fonctionnement.
Copyright Notice
Copyright © 2015 SAF Tehnika, JSC. All rights reserved.
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Contents
Chapter 1: OVERVIEW ............................................................................................... 5
Labelling ................................................................................................................ 5
Microwave Radiation ............................................................................................ 6
Chapter 2: INSTALLATION........................................................................................ 8
Package contents ................................................................................................. 8
Integra-W/WS FODU: assembling mounting bracket and installing with
antenna on a pole ................................................................................................. 8
Disassembled mounting bracket and tools required for assembly..................... 8
Changing polarization of Integra-W FODU and antenna........................................ 9
Assembly procedure ...................................................................................................10
Integra-WS FODU: attaching to the antenna..................................................... 15
Connecting Integra-W/Integra-WS FODU FO interface using fiber conduit kit 17
Chapter 3: WEB GUI ................................................................................................ 18
Initial configuration............................................................................................. 18
Powering Integra-W/Integra-WS FODU and connecting to PC..........................18
PoE injector (P/N I0ATPI22).......................................................................................18
Universal programmable PoE injector (P/N I0ATPI24) ........................................18
System requirements..................................................................................................21
Ethernet management connection configuration..................................................21
Accessing Integra-W/Integra-WS Web GUI ...........................................................22
Main page......................................................................................................................23
Modifying basic system parameters .......................................................................24
Over The Air......................................................................................................... 26
Over The Air Radio Configuration ...................................................................26
Networking .......................................................................................................... 29
Networking Ethernet Network configuration................................................29
Networking Ethernet Port status and configuration ...................................30
Performance........................................................................................................ 31
Performance Alarm Alarm status...................................................................31
Performance Alarm Alarm log.........................................................................31
Performance Alarm Sensor configuration....................................................34
Performance Alarm Alarm threshold configuration....................................36
Performance Monitoring Performance graph..............................................38
Performance Monitoring Performance log...................................................40
Performance Ethernet Ethernet switch statistics........................................41
Performance Over The Air Modem graph.....................................................45
System................................................................................................................. 50
System FW Firmware upgrade........................................................................50
System Configuration IP configuration .........................................................51
System Configuration SNMP configuration .................................................52
System Configuration Configuration file.......................................................55
System Configuration Password configuration...........................................58
System Configuration System configuration...............................................59
System Configuration System services ........................................................61
System Diagnostic Loopback configuration ................................................63
System Diagnostic Download troubleshooting file.....................................64
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System Tools License management .............................................................65
System Tools Console......................................................................................67
System About About System ..........................................................................67
System About Copyright ..................................................................................68
System About Inventory...................................................................................69
Chapter 4: COMMAND LINE INTERFACE ............................................................... 70
Connecting to serial RS232 interface ................................................................ 70
Connecting to SSH.............................................................................................. 72
Connecting to Telnet........................................................................................... 72
Chapter 5: TOOLS ................................................................................................... 74
MIB files............................................................................................................... 74
Chapter 6: INTERFACES.......................................................................................... 75
RJ-45 ports (MNG & LAN) .................................................................................. 75
SFP port (LAN) .................................................................................................... 76
USB port .............................................................................................................. 76
RSSI LED.............................................................................................................. 76
RSSI/audio port................................................................................................... 77
Appendix A: TECHNICAL SPECIFICATION ............................................................. 79
Integra-W preliminary RSL Threshold (dBm) and Link Capacity (Mbps)..........80
Maximum Tx Power for Integra-W and Integra-WS.............................................80
High Performance integrated antenna specification............................................81
CONTACTS .............................................................................................................. 81
INTEGRA-W/INTEGRA-WS User Manual OVERVIEW
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Chapter 1: OVERVIEW
Labelling
The label contains the following information (see samples in the picture below):
Product model name (“SAF Integra-W-38”). The FODU model name example is:
-SAF Integra-W-38 for Integra-W 38GHz FODU,
-SAF Integra-WS-23 for Integra-WS 23GHz FODU, etc
Product Number / Model Number (P/N or M/N) (D38W1R01LA): product/model number
contains various information about the unit. Please see translation below.
Serial Number (3880801 00001): the serial number uniquely identifies the unit.
P/N or M/N translation:
“D” designates Integra series product;
“38” designates frequency band (38 GHz) of the radio;
“W” designates Integra-W product type;
“1” designates 1ft antenna diameter and ETSI Class 3;
-“0” - <1ft (20cm) antenna diameter and ETSI Class 3;
-“2” - 2ft antenna diameter and ETSI Class 3;
-“3” -3ft antenna diameter and ETSI Class 3;
-“4” -4ft antenna diameter and ETSI Class 3;
-“5” - <1ft (20cm) antenna diameter and ETSI Class 4;
-“6” -1ft antenna diameter and ETSI Class 4;
-“7” -2ft antenna diameter and ETSI Class 4;
-“8” -3ft antenna diameter and ETSI Class 4;
-“9” -4ft antenna diameter and ETSI Class 4;
-“S” – split-mount, without integrated antenna.
“R” is reserved;
“05” designates the version number of the radio;
“L” designates low side radio;
-“H” - high side radio
“A” designates A subband radio;
-“B”- B subband radio;
-“C” - C subband radio
Please note that frequency range is set from the central frequency of the first 3.5 MHz
channel to the central frequency of the last 3.5 MHz channel (see the diagram below).
Frequency range of subband B low side Integra-W 38 GHz FODU:
INTEGRA-W/INTEGRA-WS User Manual OVERVIEW
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Microwave Radiation
In April 1998, ICNIRP (International Commission on Non-Ionizing Radiation Protection)
published its ´Guidelines for limiting exposure to time-varying electric, magnetic, and
electromagnetic fields (up to 300GHz)´. As shown in Table 2.2-1, the guidelines (Tables 6
and 7) specify the ´Reference levels on power density for occupational exposure and general
public exposure to time-varying electric and magnetic fields (unperturbed rms values)´
between 2 and 300 GHz.
ICNIRP Reference levels within the frequency range 24 GHz
Frequency range Exposure
characteristics
Equivalent plane
wave power density
Seq (W/m2)
Average time period
(min)
24GHz
occupational 41cm
50
68/f1.05 (f in GHz)
general public 91cm
10
68/f1.05 (f in GHz)
Note: For pulsed signals it is suggested that the peak equivalent plane wave power density, as averaged over the
pulse width, does not exceed 1000 times the Seq exposure levels given in the table.
Note: Within the frequency range the 10 – 300 GHz the basic restrictions are identical to the reference levels.
Remarks to the definition of basic restrictions:
1. Power densities are to be averaged over any 20 cm2 of exposed area and any 68/f1.05 minute period (where f is
in GHz) to compensate for progressively shorter penetration depth as the frequency increases.
2. Spatial maximum power densities, averaged over 1 cm2, should not exceed 20 times the values above.
Compared to the ICNIRP restrictions, FCC CFR 47 specifies the Maximum Permissible
Exposure (MPE) levels for occupational/controlled environment and general
public/uncontrolled environment, as shown in the table below.
FCC MPE limits within the frequency range 1.5-100 GHz
INTEGRA-W/INTEGRA-WS User Manual OVERVIEW
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Frequency range Exposure
characteristics
Equivalent plane
wave power density
Seq (W/m2)
Average time period
(min)
24GHz
occupational 41cm
50
6
general public 91cm
10
30
Quite a few other documents specify or refer to exposure limits comparable to those given
above, e.g.:
- 1999/519/EC: Council Recommendation of 12 July 1999 on the limitation of exposure of
the general public to electromagnetic
fields (0 Hz to 300 GHz)
- WHO: Environmental Health Criteria 137: ´Electromagnetic Fields (300 Hz to 300 GHz)´
- ANSI/IEEE C95.1, 1999:
´IEEE Standard for Safety Levels with Respect to Human Exposure to Radio Frequency
Electromagnetic Fields, 3 kHz to 300 GHz´
- BRD, Bundesimmissionsschutzgesetz, 26. BImSchV Verordnung über elektromagnetische
Felder
- Bundesamt für Umwelt, Wald und Landwirtschaft (BUWAL), Bern/Schweiz
Schriftenreihe Umwelt Nr. 164, Luft, Mai 1992
´Messung nichtionisierender elektromagnetischer Strahlung, 1. Teil: Frequenzbereich 100
kHz bis 300 GHz´
- DIN VDE 0848-2, Entwurf, Oktober 1991:
´Sicherheit in elektrischen, magnetischen und elektromagnetischen Feldern, ´Teil 2: Schutz
von Personen im Frequenzbereich von
30 kHz bis 300 GHz´
- ENV 50166-2, January 1995 (withdrawed in December 1999 by CENELEC)
´Human Exposure to Electromagnetic Fields (10 kHz – 300 GHz)´
INTEGRA-W/INTEGRA-WS User Manual INSTALLATION
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Chapter 2: INSTALLATION
Package contents
Integra-W Integra-WS
-Integra-W FODU D**W1*****
(0.3m), D**W2***** (0.6m)
-Mounting bracket D0SPKR02
-Locking key for Integra-W
D0ALK001
-Kit of replacement parts D0AZIP01
-RJ-45 connector 8P shield solid
FOACNR02
-Installation manual D0DB2RM1
-
Integra-WS FODU D**WS*****
-Locking key for Integra-WS
D0ALK002
-RJ-45 connector 8P shield solid
FOACNR02
-Installation manual D0DBSRM1
Integra-W/WS FODU: assembling mounting bracket
and installing with antenna on a pole
Disassembled mounting bracket and tools required for assembly
Parts of disassembled mounting bracket
# Parts of disassembled mounting bracket
1 Three M8x1.25x16 hex flange bolts already attached to clamps for housing and pipe [5]
2One hex flange bolt M8x1.25x30, one M10x1.5 hex flange nut and one M8x80 eye screw
already attached to clamps for housing and pipe [5]
3One M8x80 eye screw
5
1
6
2
7
3
94
8
INTEGRA-W/INTEGRA-WS User Manual INSTALLATION
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4M8x160 and M8x130 threaded rods
5Clamps for housing and pipe interconnected with three M8x1.25x16 hex flange bolts [1]
and an eye screw for horizontal alignment [2]
6Six M8x1.25 hex flange nuts
7Three M8x1.25 hex nuts
8One hex flange bolt M8x1.25x20
9Mounting bracket clamp
# Parts of Integra FODU
10 Spacer hex flange nut
11 Lifting eye nut
12 Fixation plate
13 Side screw flange nuts
14 Grounding flange nut
Numbers of mounting bracket and Integra FODU parts in next sections will be mentioned in
square brackets [].
Changing polarization of Integra-W FODU and antenna
Tools required: 13mm (0.512”) wrench (comes in
package)
11
13
10
12
14
INTEGRA-W/INTEGRA-WS User Manual INSTALLATION
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Assembly procedure
Tools required: 13mm (0.512”) wrench (comes in package)
1 Remove Integra-W FODU with antenna
from mounting bracket.
Default polarization is vertical. 2 Using 13mm wrench remove indicated nuts
and fixation plate [10, 11, 12, 13, 14].
3
Removed parts must be attached back
with 90 degree offset (see above). Gap
between side screw flange nuts [13] and
fastening angles should be 5mm. 4
View of Integra-W FODU with swapped
polarization.
5
When polarization is changed, make sure
that drain hole cap located at grounding
flange nut should be removed and
inserted in previous drain hole.
INTEGRA-W/INTEGRA-WS User Manual INSTALLATION
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1
Using 13mm wrench slightly loosen three hex
flange bolts [1] and hex flange bolt, nut and eye
screw [2] interconnecting clamps for housing
and pipe [5]. 2
Attach vertical alignment eye screw [3] to clamps for
housing and pipe [5] using hex flange bolt [8] and
screw on one hex nut [7] and two hex flange nuts [6].
Make sure that both eye screws are positioned as
shown in the image (turned to the back side of
clamps) and the gap between each two flange nuts on
eye screws should be 15..20mm (0.6..0.8 in.). Do not
tighten both hex flange bolts [8] and [2].
3
Screw on one hex flange nut [6] on each of
threaded rods [4]. Note that flange nuts should
be screwed on exposing approx. 20mm (0.8
in.) of threaded rods. 4
Insert both threaded bolts into two available holes of
mounting clamp. Put hex nuts [7] on the other side of
the clamp and screw on the threaded bolts until it is
visible from other side of the clamp not more than
2mm. Tighten hex flange nuts [6] with torsion 20..25
N·m.
5
Attach mounting bracket clamp [9] on longest
threaded rod [4] as shown on the picture and
afterwards screw on remaining two hex flange
nuts [6] on both threaded rods. No parts
should remain left not assembled.
Bracket clamps in following position support
mast
∅
55..120mm. Reversing clamps allows
support of smaller masts
∅
25..75mm.
6
Unscrew hex flange nut [6] from shortest threaded rod
[4]. Make sure that hex flange nuts on longest
threaded rod is not too far; otherwise adjust nut’s
position accordingly. Put other end of mounting
bracket clamp [9] on free threaded rod and screw on
hex flange nut.
7 Hex flange nuts should be evenly aligned on
threaded bolts so that mounting bracket clamp
[9] is tightly attached to the pipe. Tighten hex
8 View of assembled mounting bracket on the mast
pole.
INTEGRA-W/INTEGRA-WS User Manual INSTALLATION
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flange nuts with torsion not exceeding 20 N·m.
9
Make sure that both horizontal and vertical
alignment eye screws are turned to the mast
before attaching Integra-W FODU. 10
Attach Integra-W FODU with antenna to the mounting
bracket so that side screws fit into grooves of the
housing clamp [5].
11
Connect vertical alignment eye screw [3] to the
upper groove on Integra-W housing.
12
View of assembled bracket on the mast pole with
Integra-W FODU attached and secured.
For extra protection from sun radiation it is
recommended to install sun shield to cover the radio
Antenna alignment
Tools required: 13mm (0.512”) wrench (comes in package)
1 Before aligning the antenna, make sure that
screws marked with red dots on the right side
view of mounting bracket are loosened - hex
flange nuts and bolts of azimuth and elevation
eye screws, right side screw on Integra-W
2 Additionally loosen following screws marked
with red dots on the left side view of mounting
bracket: left side screw on Integra-W FODU
and two hex flange bolts between both
mounting bracket clamps for housing and
INTEGRA-W/INTEGRA-WS User Manual INSTALLATION
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FODU and hex flange bolt on azimuth angle
indicator.
pipe.
3
For initial alignment make sure that elevation
is approximately at zero degree angle by
adjusting hex flange nuts [9] on vertical
alignment eye screw so that Integra’s housing
is parallel with the bracket. 4
Adjust azimuth angle by manually moving
mounting bracket in horizontal axis. Note that
all azimuth position fixing hex flange bolts, as
well as horizontal alignment eye screw with
flange bolt need to be loosened ensuring free
movement in horizontal axis.
5 Each notch corresponds to one degree of
azimuth angle. Half distance between notches
(each lip) corresponds to 0.5 degree. 6 Fix azimuth angle on horizontal axis by
adjusting position of flange nuts [6] on both
horizontal and vertical alignment eye screws.
7
When alignment is finished tighten screws
marked with red dots on the right side view of
mounting bracket: hex flange nuts and bolts of
azimuth and elevation eye screws, right side
screw on Integra-W FODU and hex flange bolt
on azimuth angle indicator with torsion 20..25
N·m.
8
Additionally tighten following screws marked
with red dots on the left side view of mounting
bracket: left side screw on Integra-W FODU
and two hex flange bolts between both
mounting bracket clamps for housing and pipe
with torsion 20..25 N·m.
INTEGRA-W/INTEGRA-WS User Manual INSTALLATION
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INTEGRA-W/INTEGRA-WS User Manual INSTALLATION
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Integra-WS FODU: attaching to the antenna
Parts of Integra-WS FODU: 1– O-ring; 2– flange protecting sticker; 3– wire handle; 4–
fixation clamps; 5– grounding screws.
Tools required: Size 5 allen wrench
Level (not supplied)
1
Using size 5 allen wrench loosen one clamp
completely and second clamp by a half-turn. 2
Put Integra-WS on antenna adapter flange
by hooking half-turn loosened clamp at the
top and leaving the completely loosened
clamp at the bottom. Make sure O-ring is in
place and the adapter flange fits into the
Integra-WS transition flange socket.
Note! Protective sticker should be removed
before attaching the Integra-WS FODU to the
antenna.
3
4
1
2
5
INTEGRA-W/INTEGRA-WS User Manual INSTALLATION
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3
Secure the interconnection by tightening the
bottom clamp (not fully). Make sure rotation
of the Integra-WS is still possible. 4
Rotate Integra-WS to match the required
polarization.
5
The sticker on the back lid indicates the
polarization of the Integra-WS. Adjust
polarization so that the interface ports are
located at the lower side of the Integra-WS. 6
Verify polarization accuracy with a level, by
placing it against the top edge of the
Integra-WS housing
7
Secure the position of the Integra-WS by fully
tightening both fixation clamps.
For extra protection from sun radiation it is
recommended to install sun shield to cover the radio
If any further assistance is required please contact
INTEGRA-W/INTEGRA-WS User Manual INSTALLATION
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Connecting Integra-W/Integra-WS FODU FO
interface using fiber conduit kit
1 Fiber conduit kit. 2 Unscrew the cap of the SFP port (LAN2 or LAN3) that
will be used and install a SFP module.
3 Disassemble conduit kit and put its parts in
the following sequence (left – Integra-W
direction, right – CPE direction). 4 Push FO cable from LC connector side through the
conduit.
5 Connect LC connector to SFP module. 6
Tighten parts on both ends of the conduit. Fasten
other end of fiber conduit to the pole using included
tie-wrap. Assembled view.
INTEGRA-W/INTEGRA-WS User Manual WEB GUI
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Chapter 3: WEB GUI
Initial configuration
Powering Integra-W/Integra-WS FODU and connecting to PC
Use Power over Ethernet (PoE) injector P/N I0ATPI22/24 with appropriate power supply
(22…60VDC, at least 60W). Please see interconnection scheme below.
Gigabit Ethernet
DC
Power over Ethernet
Ethernet cable from PoE injector should be connected to RJ-45 port on Integra-W/Integra-
WS FODU (LAN1). Total length of Ethernet cables from CPE to PoE injector (DATA port) and
from Integra-W/Integra-WS to PoE injector (DATA+PWR port) combined should not exceed
100m. It is recommended to use outdoor rated STP/FTP Ethernet cable Cat5e or better.
When powered RSSI LED will light up in solid green colour for approx. 20sec. Afterwards
RSSI LED will go out for approx. 35sec. and eventually start blinking indicating current Rx
level.
Please refer to Chapter RSSI LED for further details on blinking patterns and corresponding
Rx levels.
PoE injector (P/N I0ATPI22)
The injector has a built-in DC/DC converter which can be enabled with a switch at the back
by switching it to “54V” position. In this mode 22..60VDC input voltage will be converted to
54VDC output voltage. It is required to use this mode when input voltage is below 48VDC or
when longer Ethernet cable is used in order to ensure sufficient input voltage to Integra-
W/Integra-WS FODU (36…57VDC). In “48V” mode output voltage of PoE injector is the same
as input voltage.
Universal programmable PoE injector (P/N I0ATPI24)
I0ATPI24 injector is designed to operate with any PoE capable product with Fast Ethernet /
Gigabit Ethernet interface. Built-in protection conforms with IEC 61000-4-5 standard.
Accepted input voltage 24…60VDC. Output voltage is stabilized to 54VDC.
Interconnection scheme with Integra / Integra-S / Integra-W / Integra-WS / SAF FreeMile 5
GE / SAF FreeMile 17 / SAF FreeMile 24 / CFIP-106 / CFIP-108:
INTEGRA-W/INTEGRA-WS User Manual WEB GUI
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Interconnection scheme with CFIP Lumina (electrical):
Front panel has 3 indication LEDS. LED3 indicates position of DIP switch S1 and its color
indication can be ignored in Forced mode (DIP switch S4 in DOWN position).
Load detected and voltage fed at the
output of PoE injector (POWER GOOD)
No load at the output of PoE injector
(OPEN)
PoE controller detected and voltage fed
at the output of PoE injector (POWER
ON)
Short at the output of PoE injector
(SHORT)
Classified PoE mode (PoE CLASSIFIED)
(if S4 is UP; see table below).
Unclassified PoE mode (PoE MANUAL)
(if S4 is UP; see table below).
Back panel has 4 switches in order to operate PoE injector in different modes.
Appropriate Imax selection while unclassified PoE mode is enabled (S1 UP, S4 UP) will provide
most effective surge protection for the radio. In case of exceeding set Imax upper LEDs
(LED1&LED2) will blink in green color.
Connecting device in Unclassified or Forced modes will introduce approx. 5 second delay of
LED indication.
In case classified PoE mode is enabled (S1 position DOWN, S4 position UP) Imax mode (PD
class) is negotiated automatically with the FODU.
Position of DIP switches should be changed only while PoE injector is turned off.
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Nr. S1 S2 S3 S4 Description
1 ↓↓↓↓
Forced mode. I
max
=1800mA. DIP switches S1, S2, S3 ignored. LED3
color will be blue.
1↓↓↑↓
Forced mode. I
max
=1800mA. DIP switches S1, S2, S3 ignored. LED3
color will be blue.
1↓↑↓↓
Forced mode. I
max
=1800mA. DIP switches S1, S2, S3 ignored. LED3
color will be blue.
1↓↑↑↓
Forced mode. I
max
=1800mA. DIP switches S1, S2, S3 ignored. LED3
color will be blue.
2
↓
↓
↓
↑
Classified PoE mode (PoE controller enabled). Imax= auto
3
↓
↓
↑
↑
Classified PoE mode (PoE controller enabled). Imax=auto
4
↓
↑
↓
↑
Classified PoE mode (PoE controller enabled). I
max
=auto
5
↓
↑
↑
↑
Classified PoE mode (PoE controller enabled). I
max
=auto
1↑↓↓↓
Forced mode. I
max
=1800mA. DIP switches S1, S2, S3 ignored. LED3
color will be green.
1↑↓↑↓
Forced mode. I
max
=1800mA. DIP switches S1, S2, S3 ignored. LED3
color will be green.
1↑↑↓↓
Forced mode. I
max
=1800mA. DIP switches S1, S2, S3 ignored. LED3
color will be green.
1↑↑↑↓
Forced mode. I
max
=1800mA. DIP switches S1, S2, S3 ignored. LED3
color will be green.
6
↑
↓
↓
↑
Unclassified PoE mode (PoE controller disabled). Imax=750mA.
7
↑
↓
↑
↑
Unclassified PoE mode (PoE controller disabled). Imax=1000mA.
8
↑
↑
↓
↑
Unclassified PoE mode (PoE controller disabled). I
max
=1250mA.
9
↑
↑
↑
↑
Unclassified PoE mode (PoE controller disabled). I
max
=1700mA.
Recommended modes
Integra / Integra-S / Integra-W / Integra-WS – Mode Nr. 5(Classified PoE mode (PoE
controller enabled). Imax=1700mA)
CFIP Lumina FODU – Mode Nr. 1/9 (Forced or Unclassified PoE mode (PoE controller
disabled). Imax=1800/1700mA)
SAF FreeMile 5.8 MIMO / SAF FreeMile 17 / SAF FreeMile 24 –Mode Nr. 6 (Unclassified PoE
mode (PoE controller disabled). Imax=750mA.)
SAF FreeMile 5 GE MIMO – Mode Nr. 2 (Classified PoE mode (PoE controller enabled).
Imax=750mA.)
CFIP-106 / CFIP-108 – Mode Nr. 8 (Unclassified PoE mode (PoE controller disabled).
Imax=1250mA)
Electrical specification
Data rate
Up to 1000 Mb/s
Classified PoE mode
Green indicator LED*
Unclassified PoE mode
Blue indicator LED*
Input Voltage
22 – 65 V
Output Voltage
54 V
Max Current
1.2 A (24…36V DC), 1.6 A (36…60V DC)
Power Connector
2ESDV-02P with screw locks
Ethernet Connectors
Shielded RJ45 jacks
Data Lines
Pins (1, 2), (3, 6), (4, 5) and (7, 8)
This manual suits for next models
3
Table of contents
