Magos Sr series User manual

Introduction

Scope

This document aims to provide a user manual for the setup and installation of the SR-Series

sensor by Magos Systems. The manual provides information on mechanical structure and

interface, installation procedure and guidelines, and interface to manage the system.

Please read the entire document prior to the installation and or use of the product.

About Magos Systems

Magos was established in 2008 to realize its co-founder’s vision of bringing advanced radar

technology to the security, perimeter protection, and detection market. We are experts in

low-cost & power consumption and high-performance radars that can be easily integrated

with existing VMS, PSIM, and other control software and automatic PTZ slew to cue for an

end-to-end cost-effective and easily maintained solution for the customer’s security

requirements.

SR-Series

User Manual

Contacting Magos Systems

info@magosys.com

Address

Gad Feinstein 13 Office 225, Rehovot Israel

7638517

Website

www.magosys.com

Support (Available to trial version/ valid

maintenance contract)

support@magosys.com

System Overview

SR-Series outdoor perimeter defense sensors are designated for outdoor installation and

use only. They provide accurate location, velocity, and bearing data on moving targets within

their coverage area. The SR-series sensor is a radar technology-based sensor. This means

that it transmits low-power (less than 100mW) RF signal in the C-Band frequency and

inspects the returned signal. Radars detect movement within the transmitted beam

coverage area, based on modification in the returned signal and Doppler-induced frequency

detection. The SR-series sensors contain no moving parts and rely on a multichannel

antenna array and digital beam-forming technology to determine target azimuth. This fact

increases scan rate capabilities and thus enhances detection probability and detection

performance in general.

In addition, it contributes to MTBF increase making the entire system more reliable. Finally,

as they are RF-based sensors, the SR-Series sensors exhibit superb immunity to lighting,

visibility (FOG, Smog), weather (rain, snow), and other environmental conditions.

The SR-Series sensors implement all data processing, and detection algorithm intrinsically,

and report the detection results via Ethernet UDP protocol to the host computer

approximately twice per second.

Unlike most radars, the SR Series sensors support "zero Doppler" detection, which can

detect very slow-moving targets (crawlers, etc.) and tangent-moving targets. Static objects

are not reported as targets since each target must travel a certain minimum target to be

considered as a target, however, a moving target that was tracked and stopped moving will

still be detected and reported.

The radar coverage area is nominally 100°-120° (depending on the model) in azimuth

(horizontal plane) and 30° in elevation.

A more accurate description of the radar coverage area can be found in Figure 10.

System Specifications

SR-150

SR-250

SR-500

SR-1000

SCEPTER

Ordering P/N

MSA1356A

MSA1452A

MS700A

MSA1231A

MSA1241A

Description

5.8GHz Sensor

150m range,

1.2m

resolution

5.8GHz Sensor

250m range,

1.2m

resolution

5.8GHz

Sensor 600m

range, 1.2m

resolution

5.8GHz Sensor

1000m range,

1.2m

resolution

5.8GHz Sensor

600m range, 1.2m

resolution

Detection Range

Human: 150m

Vehicle/Boat:

150m

Human: 250m

Vehicle/Boat:

250m

Human 400m

Vehicle/Boat:

600m

Human: 800m

Vehicle/Boat:

1000m

Human: 400m

Vehicle/Boat:

600m

Frequency

C-Band

Sensor Type

High-resolution MIMO digital beam-forming

Azimuth Coverage

(

)

120

100

Elevation Coverage

(

)

30O

High-Range

Accuracy

< 1m

Azimuth Accuracy(

)

0.7

Scan Rate (per

second)

Target Detection

Speed (m/sec)

0.3-30

Dimensions

25cm X 15cm X 5.9cm / 9.8” X 5.8” X 2.3”

25cm X 30cm X 8 cm /9.8” X 11.8” X

3.15”

Power Consumption

48V, 3.5W

48V, 5W

Operating

Temperature

-40 - +85 C

Power Interface

PoE 802.3af (802.3at Type 1)

Environmental

Ratings

NEMA-6, IP67

Weight (Kg/Ib)

1.5Kg / 3.3Ib

3Kg / 6.6Ib

Approvals/

Certifications

CE, FCC, UL, IC

FCC, UL, IC

CE/RED EN 62368-

1:2014, EN 60950-

22:2006 / AC:2008,

EN 301 489-1, EN

301 489-3, EN 300

440

Figure 1: SR-Series Sensors – SR150/250/500 (left) and SR1000/SCEPTER (right)

Physical Installation

Personnel Authorized for Installation

Installation of the SR-Series Sensors is intended for technicians/system integrators who

have only received training by Magos Ltd.

If you have not received proper training, please contact Magos Ltd or visit our website

(www.magosys.com) for a list of authorized installation personnel.

Installation Restrictions and Limitations

•The product shall be installed at a location where the radiating antenna can be kept

at least 2mfrom nearby persons in normal operating conditions.

•For safety reasons it is restricted to install the radar in marine-type environment.

General Installation Guidelines

To properly install the SR-Series sensors and integrate it into an active, efficient protection

system, it is imperative that the user will first understand some basic rules regarding radars

in general and specifically regarding the SR-Series sensors. Prior to sensor installation, it is

imperative that the user reads the following list of limitations and restrictions and ensures

that the intended installation site is suitable for installation. When in doubt

Please consult with Magos representatives. In addition, Magos strongly recommend

conducting a site survey prior to installation. For first-time installers, it is recommended to

consult with Magos representatives before, during, and after the site survey.

The following limitation and restrictions should be considered prior to installation:

-Line of sight: Radar sensors are based on line-of-sight detection. Any obstacles

hiding or partially hiding areas from the radar will not be properly protected. This

includes obvious obstacles such as walls, buildings, hills, etc, but also includes less

obvious obstacles such as light foliage, low bushes, etc., where the target is only

partially obscured from the radar. In such cases, detection performance is reduced.

-Clutter: While the SR-Series sensors feature "zero-doppler" detection, maximum

detection ranges for tangent moving targets (moving targets that remain at a

constant or near constant distance from the radar) or for crawlers are typically

reduced compared to radial moving targets. This occurs in areas that are not clear of

obstacles such as bushes, trees, and other flora.

-As mentioned earlier the SR-Series sensors might exhibit disturbances and "ghost"

targets as a result of largely returned signals. This occurs when a very large target

(car/ truck etc.) moves in the vicinity of the radar (30m away or less, and 5m away or

less for human targets) even outside the stated coverage area. Therefore, it is

recommended to install the sensor in unpopulated, isolated spots (or alternatively

use high poles to increase the distance between the radar and ground traffic).

-The SR-Series sensors, in similar to all radar-based technologies, rely on returned

signals to interpret target location. If the coverage area contains metallic objects

(cars, large pipes, fences, etc) or non-metal surfaces (straight walls, buildings) this

might result in multiple reflections (similar to looking at a mirror) from a signal

target, arriving at the radar from multiple angles.

This means, for example, that if the sensor is set to protect an area containing a

metallic fence, a target moving at one side of the fence might be detected by the

radar as 2 targets moving from both sides of the fence.

Figure 2: Avoid reflections from metallic objects

- Note that tripod user as illustrated in the figure is not recommended for permanent

installations. Use tripods only for evaluating sensor performance during site

surveys/demos/etc.

- In general water is non-transparent to RF signals. A consequence of this fact is that

when the SR-series sensor intended to cover an area containing large bodies of

water, large waves and other disturbances in the surface of the water might be

interpreted by the radar as moving targets.

- Note that in similar to all transmitting/receiving antennas and devices, the SR-Series

sensors also exhibit low gain to areas outside the stated coverage area. This results

in some wanted and unwanted phenomena for example:

oZero range detection: even when installed on very high (>10m) poles with

zero tilt angle – the radar will probably still detect targets moving on the

ground directly below it (allegedly increasing coverage in elevation to 90

degrees below the horizon).

oNear range disturbances: large moving targets (or metallic objects acting as

reflectors) in the near vicinity of the radar (up to 10 meters away from it for

human targets) outside the area of coverage and even directly behind the

radar might be detected by the radar and falsely interpreted as targets

moving within the coverage area.

Mechanical Installation

SR-Series sensors have four mounting holes for attaching the unit to designated

adaptors/brackets. It is strongly recommended to use Magos mounting brackets. This

section includes full details for the mechanical mounting of the sensors.

Important!

The warranty does not cover water damage caused to the connector. In order to

avoid such damage, the cap must be attached whenever a cable is not plugged in.

Whether using the cable or the cap ensure that they are securely connected by twisting them

until firmly locked.

Sensor Mounting

Figure 3 and Figure 4 outline the mechanical dimensions of the various sensors and the

locations of the mounting holes (identical in all SR-series models). Holes are compatible

with ¼’’-20X1/2 screws. Screws and mounting brackets can be purchased separately from

Magos. These include tilt adjustable brackets, and adaptors for wall, corner, and pole

installations as depicted in.

- Figure 5

- Ensure all 4 screws are used. During installation make sure all screws are properly

fastened and are installed with spring washers and washers. Otherwise, Magos is not

responsible for damage caused to the unit or people that might result from the

detachment of the sensor unit under harsh wind conditions.

Figure 3: SR-1000F/SCEPTER Mechanical Dimensions and Mounting Holes

Figure 4: SR-500F/SR-500I/SR-250F/SR-150F Mechanical Dimensions and Mounting Holes

Figure 5: Universal Bracket

Installation Height

Microwave radiation does not propagate in a straight line but more as an elliptic sphere

between the radar and the target: This is known as a Fresnel zone and should be kept clear

of blocking objects to maximize radar performance.

The ground is the major problem but also other objects in the area like trees, buildings and

large vehicles can be a problem.

Therefore, please use the following table as a minimum recommended radar installation

height as a function of the maximum detection range wanted for the radar:

Range (m)

Sensor Minimum Height (m)

150

250

500

1000

9.5

Table 2: Recommended Installation Height

Sensor Direction

In terms of azimuth (or horizontal direction), aim the center of the sensor towards the center

of the area of interest. Figure 10 demonstrates detection performance – maximum range as

a function of angle of approach from the birds-eye view. Ensure that sensor is level with the

ground, otherwise, sensor coverage area might be reduced depending on the sensor’s

elevation angle coverage and the degree of tilt relative to the ground.

Figure 6: SR-Series Maximum Coverage Diagram (Top View)

- In terms of tilt angle, to achieve the best performance refer to Table 3 and Figure 7.

The rule of thumb is to point the radar such that the maximum desired detection

range is at the center of the elevation coverage range of the radar.

- Tilt recommendations relate to the height of radar compared to ground level at a

maximum range of interest. When installing in extremely un-level terrains (e.g. on top

of a steep hill) tilt angle might need further adjustment

Figure 7: Tilt Angle

Height (m)

Range (m)

Tilt angle (degrees)

100

-3

200

-2

400

100

-6

200

-3

400

100

-8

200

-4

400

-2

100

-11

200

-6

400

-3

Table 3: Tilt Angle

Additional Physical guidelines

•Make sure the sensor is stable and secure. The mounting solution should be stiff and

stationary under harsh wind conditions. As a general guideline, oscillations of more

than 3cm should not be allowed, or the unit’s performance might be compromised.

•If several sensors need to be installed next to each other, we recommend a distance

of at least 1m between the sensors when not aimed at each other (back-to-back

installation). Avoid aiming the sensors at each other when they are installed with less

than 150 meters distance between them.

Important!

Failure to observe the above restrictions might result in sensor performance

degradation and in extreme cases might lead to irreversible damage to thesensor units.

•Connecting to the sensor: use outdoor weather immune cables. When the cable is

not plugged in, use the connector cap to maintain weather immunity. The warranty

does not cover weather damage (corrosion etc.) caused by the usage of improper

cables/failure to the use the cap when not installed. In such cases product warranty

is void. See chapter 5 for details on the sensor’s electronic connection. Ensure that

the electronic connecting cable is firmly secured to the pole/wall or any other

contraption upon which the radar is installed in such a fashion that would not allow it

to dangle within the coverage area of the sensor. In addition, make sure that the

cable securing method renders it resistible to strong winds and that it does not apply

excessive force on the connector.

Electrical Installation Guidelines

The electrical installation of the sensor consists of a simple cable connection on the radar

side. Figure 8 contains the electrical schema of this cable.

For safety and warranty reasons users must use only cables supplied by Magos. Users must

also ensure that the connector shielding on the RJ45 connector side is

properly grounded.

Figure 8: SE-Series External operation cable

Power Supply Interface

Ensure that the SR-Series radar is powered only by an IEEE 802.3at Type 1 (802.3af) and

Type 2 certified POE injector/switch which is in conformance with all safety and EMC

standards that are relevant and applicable in your country. If you are unfamiliar with such

standards, it is recommended that you contact Magos and enquire as to the compatibility of

the suggested power supply. The electrical requirements of the power supply are according

to IEEE 802.3at Type 1 (802.3af) and Type 2.

Using power supplies that do not meet these requirements and/or are not properly

authorized for public use in your country is the sole responsibility of the user, and might

result in unexpected sensor behavior or even irreversible damage to the unit.

Important!

For safety reasons, prior to handling the connector on the radar unit, disconnect

the AC/DC converter or POE supply feeding the unit.

For a list of recommended POE equipment please refer to the Magos Knowledge Base page,

at: https://partners.magosys.com/portal/wiki

Communication Interface

The SR-Series sensors support a standard Ethernet interface (100Mbps). The product label

contains its unique MAC address. When interfacing with Magos proprietary MASS C&C

software consult the MASS user manual for more details on the sensor interface and ICD.

Otherwise please contact Magos at support@magosys.com for information on supported

C&C software, sensor

setup etc.

Network Behavior

In terms of network discovery – the SR-Series sensors send out a broadcast message used

for the identification of the sensor in any network, regardless of the subnet. These

messages can be used for the initial detection and configuration of the sensor (setting a

subnet-matching IP address).

In terms of outgoing operational messages (detections etc.), the SR-Series sensors are

designed to send messages to a single client. Once the sensor receives a valid message

from any source, it will automatically direct all outgoing communications to the source IP

address. The sensor does not support broadcast/multicast topologies in which several

devices listen/subscribe to outgoing messages sent from

the sensor.

Therefore, ensure that at any given time, your local network contains a single device that is

attempting to communicate with the SR-Series sensors. If more than one instance of the

MASS server is running on 2 different computers in the network, for example, a race

condition is created in which the sensor keeps "jumping" between two destination IP

addresses.

Radar Manager

The "Radar Manager" software tool is a simple configuration tool for swift and easy network

configuration of the SR-Series Radar. This tool doesn't require installation and can be

downloaded from (https://partners.magosys.com/portal/downloads/). If you encounter

problems during the download you may contact the Magos support team

(support@magosys.com) for assistance.

This section contains instructions on how to use the "Radar Manager" tool to detect radars

connected to your local network and to assign them with user-defined IP addresses. This

initial step is crucial for proper communications with the radars via C&C/PSIM software

(either Magos MASS or any other software based on Magos SDK).

Figure 9 depicts the Radar Manager main screen as it is shown when first running the tool.

The play/stop buttons on the top left of the screen can start/stop the tool from scanning

network messages.

While running the tool scans for specific broadcast messages periodically sent by the SR-

Series sensors.

As seen in Figure 10 the main screen lists the sensors it detected in a table. Each device

occupies one row in the table with the following columns:

•MAC – device-specific and unique MAC address

•IP – current IP address assigned to the sensor

•Model – Device model and firmware version

•Last Update – the time and date of the last message broadcast by the device.

Figure 9: Radar Manager main screen

In order to assign a different IP to a sensor, right-click on the row containing the device

details, and choose "Assign IP".

An "Update IP" window will be opened as shown in Figure 14. The window shows the MAC

address of the selected sensor and the current IP assigned to it. The user is prompted to

type in the new IP address.

When done click set.

The new IP will be updated in the device table of the main screen within a few seconds,

when the next broadcast message arrives from the device. It is recommended to wait and

check that IP was indeed updated successfully.

This IP will be retained in flash memory on the sensor and will not be erased upon reset. It

can be re-configured using the radar manager tool whenever needed.

Figure 10: Radar Manger – choosing a fixed IP

BIT

The SR sensor includes a built-in test feature. This feature is designed to allow operators to

identify HW or other faults that might result in reduced sensor performance or even prevent

the operation of the sensor.

Note – The BIT feature is not supported in all FW versions. In order to find out whether your

sensor supports BIT please contact the Magos support team.

BIT Mechanism

The built-in test contains 2 types of tests – continuous and periodic. Continuous tests are

run continuously. If the test fails BIT status is immediately reported. Periodic tests run

periodically (approx. once per minute).

In any event, regardless of test results, a BIT status report is sent periodically upon

completion of all periodic tests.

While all tests have a "Boolean" "Pass/Fail" result, most tests also report a numeric test

result if relevant.

To find out how to access the BIT status report, and depending on the control software you

use, please see:

•MASS user guide – "BIT Status Report" chapter

•Technician software user guide

•SDK/ICD documentation

BIT Description

•Jamming – Radar SW suspects a jamming attempt / an external interference. This

test is run continuously and any suspected jamming/interference is immediately

reported. The jamming test also returns the estimated direction of the jamming

source and measurement standard deviation.

•Current – Radar current consumption is too high/low. Test result includes current

measurement in mA. This test is periodic.

•Vmain – The internal 5V DC supply output voltage exceeds limits. Test result

includes voltage measurement in mV. This test is periodic.

•VextPOE – The main DC voltage supply input level exceeds limits. Test result

includes voltage measurement in mV. This test is periodic.

•Temp. – The temperature exceeds operating limits. Test result includes temperature

measurement in ° Celsius. This test is periodic.

•Vneg, Vhighh, Vpll, Vrf1, Vrf2, VpdPre, VpdCh0 - Various internal DC converter

voltages levels. These tests include voltage measurement in mV. This test is

periodic.

•TxRfP – RF power detector places on the Tx output detects a power level that

exceeds limits. This test includes estimated power measurement in dBm. This test is

periodic.

•PllLck – The Pll (in charge of generating the Tx RF signal) fails. This test does not

include additional results. This test is continuous.

•TamperSw – Internal tamper switch has been activated. This means that the radar's

front cover (Radome) has been physically removed. This test is continuous.

•Note I – This test is only support in specific HW models that include the Tamper

Switch. Contact Magos support to find out whether your unit includes this feature.

•Note II – Once tamper switch is set it can only be cleared by an authorized Magos

technician.

Handling Failed BIT Reports

In case of a Jamming report – try to find out if there are any radio-emitting devices in the

vicinity of the radar (wireless communication equipment, nearby radars, etc.). Use the angle

measurement report to narrow down the emitting source possible locations.

In case of temperature – the sensor is designed to operate in extreme temperature

conditions from -40° up to +85° Celsius. If installed in a harsh environment that exceeds

these limits try to control temperature by shading/adding circulation (in case of

overheating) or adding an external heat source (even a lamp) in case of extremely low

temperatures.

In the case of tampered SW – this indicates that radar has physically tampered. Even if

tamper occurred due to an innocent mistake, once the Radome has been opened the unit

must be inspected by Magos personnel or an authorized technician to ensure that no lasting

damage has occurred.

In case of failure in all other tests, the unit must be inspected by Magos personnel or an

authorized technician in order to locate the HW fault and repair it.

Warnings and Disclaimers

General

The SR-series sensor is an electronic radiating product. As such it is not recommended for

installation in densely populated areas, or in the vicinity of such areas. Magos recommends

installation at remote, un-populated, outdoor sites only. In addition, avoid prolonged

unnecessary human contact with the radar and as a rule, it is recommended that the sensor

is installed at a safety distance of at least 3m from any person.

All SR-Series sensors are not suitable for installation in locations where children are likely to

be present.

The SR-Series sensors are not intended for direct connection to the AC power network.

When using power supplies/converters with the sensor that are connected to a local or

national AC power network make sure they are properly isolated and are in full compliance

with your local regulations as well as with POE/POE+ standards as specified in section 4.1.

In any event, Magos will not liable for any damage caused to the product or any

interference caused to the power network resulting from a faulty inappropriate power

supply.

Mechanical installation of the SR-Series sensor is not within the scope of responsibility of

Magos. Magos is not

liable to any damage incurred to the customer and/or to a third party due to faulty

installation (loose bolting/weak brackets etc.).

SR Series sensors are intended for installation in restricted access areas and are installed

and serviced only by skilled personnel qualified by Magos.

Warning!

– hot parts

While handling the device, pay attention to a hot surface.

FCC Compliance Statement

IMPORTANT!

This Section relates only to SR150F (PN: MSA1356A) SR250F (PN:

MSA1452A), SR500F (PN: MS700A) and SR1000F (PN: MSA1231A)

This device 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 residential installations. 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 and television

reception.

However, there is no guarantee that interference will not occur in a particular installation. If

this device does cause such interference, which can be verified by turning the device off and

on, the user is encouraged to eliminate the interference by one or more of the following

measures:

•Re-orient or relocate the receiving antenna.

•Increase the distance between the device and the receiver.

•Connect the device to an outlet on a circuit different from the one that supplies

power to the receiver.

•Consult the dealer or an experienced radio/TV technician.

Warning!

Changes or modifications to this unit not expressly approved by the party

responsible for compliance could void the user’s authority to operate the

equipment.

To comply with FCC Section 1.1310 for human exposure to radiofrequency electromagnetic

fields, implement the following instruction:

A distance of at least 30cm. between the equipment and all persons should be maintained

during the operation of the equipment.

Industry Canada Compliance

Important

: This Section relates only to SR150F (PN: MSA1356A) SR250F (PN:

MSA1452A), SR500F (PN: MS700A) and SR1000F (PN: MSA1231A).

This device complies with Industry Canada license-exempt RSS standard(s). Operation is

subject to two conditions: (1) This device may not cause harmful interference, and (2) this

device must accept any interference that may be received or that may cause undesired

operation. A distance of at least 30cm. between the equipment and all persons should be

maintained during the operation of the equipment.

Le present appareil est conforme aux CNR d'Industrie Canada applicables aux appareils

radio exempts de

licence. L'exploitation est autorisee aux deux conditions suivantes :(1) l'appareil ne doit pas

produire de

brouillage, et (2) l'utilisateur de l'appareil doit accepter tout brouillage radioelectrique subi,

meme si le brouillage

est susceptible d'en compromettre le fonctionnement.

Une distance d'au moins 20 cm. entre l'équipement et toutes les personnes devraient être

maintenues pendant le

fonctionnement de l'équipement

Warranty

Unless otherwise agreed upon Magos supplies a 1-year warranty from the date of purchase.

The product warranty extends to the original purchaser only and is not transferable.

The product warranty does not apply to software programs, power supplies, cables,

brackets, or other accessories supplied with the product.

Transport in case of a malfunction that requires maintenance at Magos premises is under

the responsibility of the customer.

Magos Ltd does not have any liability or responsibility under the Product Warranty where any

cost, loss, injury, or damage of any kind, whether direct, indirect, consequential, incidental or

otherwise arises out of events beyond Magos’s reasonable control. This includes but is not

limited to: acts of God, war, riots, embargoes, acts of civil or

military authorities, fire, floods, electricity outages, lightning, power surges, or shortages of

materials or labor.

The product warranty is automatically voided if:

•You or anyone else use the product or attempt to use it other than as specified by

Magos;

•The fault/defect in your product is the result of a voltage surge subjected to the

product either by the way of power supply or communication line, whether caused by

thunderstorm activity or any other cause;

•The fault is the result of accidental damage in transit, including but not limited to

liquid spillage;

•Your product has been used for any purposes other than that for which it is sold, or in

any way other than in strict accordance with the user manual supplied;

•Your product has been repaired or modified or attempted to be repaired or modified

or tampered with by anyone other than a person qualified to do so by Magos.

Specifically opening the product cover or any of the cover fastening screws will be

considered as tampering described in this section;

•The serial number label has been defaced or altered in any way or removed.

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