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© LigoWave.com, 2014
LigoPTP series
© LigoWave.com, 2014
LigoPTP series
Why people choose LigoWave? Low USD to Mbps ratio Carrier grade components Affordable - customer base ranges from T1 operators to small ISPs 24/7 support with remote configuration and onsite training Easy to configure and deploy Flexible management system (includes 3rd party equipment support) Developed for PTP applications A leader in an IP based traffic transmission
© LigoWave.com, 2014
LigoPTP series
Why should I invest more in backhaul? Backhaul is a lot closer to the core of your network Even a small failure may cause damage to a bigger part of your network Increasing demand for high PPS rate requiring traffic
VoIP Video surveillance
Decrease OPEX (operational expenses) related to equipment maintenance and troubleshooting
Increase ROI (return on investment)
© LigoWave.com, 2014
LigoPTP series
#1 PROBLEM - INTERFERENCE
© LigoWave.com, 2014
LigoPTP series
#1 CURE FOR THE INTERFERENCE
© LigoWave.com, 2014
PTP series W-JET PROTOCOL
802.11 N
W-JET MiMo 2
Data coming IN
Data coming IN
Data coming IN
Data coming IN
© LigoWave.com, 2014
PTP series W-JET PROTOCOL
Data assembled
in to large stack
Listening if anyone is
transmitting
802.11 N
W-JET MiMo 2
© LigoWave.com, 2014
PTP series W-JET PROTOCOL
Data assembled
in to large stack
Hear noise
and wait
802.11 N
W-JET MiMo 2
© LigoWave.com, 2014
PTP series W-JET PROTOCOL
Data assembly
finished
Listening if anyone
Is transmitting
802.11 N
W-JET MiMo 2
© LigoWave.com, 2014
PTP series W-JET PROTOCOL
Sending data
and token
Sending data
802.11 N
W-JET MiMo 2
© LigoWave.com, 2014
PTP series W-JET PROTOCOL
Sending data
and token
802.11 N
W-JET MiMo 2
Hear noise
and wait
© LigoWave.com, 2014
PTP series W-JET PROTOCOL
Total data transmitted:
4 times better
performance
Total data transmitted:
802.11 N
W-JET MiMo 2
© LigoWave.com, 2014
PTP series W-JET PROTOCOL
Ideal for a real-time data applications
low latency
© LigoWave.com, 2014
PTP series W-JET PROTOCOL
No distance limitation
low latency
© LigoWave.com, 2014
It is a real-time spectrum scanning tool, which provides a graphical signal
representation and displays maximum, average and current signal (noise) level.
A spectrum analyzer is a
device used to examine the
spectral composition of
some electrical, acoustic,
or optical waveform. It may
also measure the power
spectrum.
Nowadays, as the unlicensed
band is becoming really
crowded it is essential to scan
the spectrum before
deploying any wireless
equipment to make sure you
will be getting the best
performance.
Normally spectrum analyzer is
a very expensive device and
Deliberant has integrated
similar functionality for FREE in
the LigoPTP product line.
PTP series SPECTRUM ANALYZER
© LigoWave.com, 2014
Software LigoPTP PRO/ UNITY series
Smart auto channel
Automatic data rate
ATPC – automatic transmit
power control
DFS 3
© LigoWave.com, 2014
With OLED you can: Align the antenna
Run link-test (throughput test application)
Review the basic configuration
Reboot
Reset to defaults
PTP series OLED display
© LigoWave.com, 2014
PTP series
#2 PROBLEM – HARSH WEATHER CONDITIONS
© LigoWave.com, 2014
LigoPTP series
Lightening protection according to IEC 61000-4-2 (ESD) and IEC 61000-4-5 (surge) standard: Integrated surge protector
PoE adapter with a grounding option
Grounding option on the enclosure
© LigoWave.com, 2014
LigoPTP series
Dual-boot (two firmware images in a single flash):
Device does not lock-up during the firmware upgrade in case of electricity drop
Available in LigoPTP UNITY products
© LigoWave.com, 2014
LigoPTP series
Many tests are carried out during the design and manufacturing phases: IP standard (at least IP-67) Wind load Surge and ESD Thermal chamber UV resistance Salt spray MTBF Shock and vibration Single and bundle package drop test
© LigoWave.com, 2014
Product presentation UNLICENSED BAND
UNITY
220 Mbps capacity 60000 PPS rate W-Jet MiMo 2 PTP protocol 28 dB radio power 23 dBi integrated radio Gigabit Ethernet port 802.3 af support Oled screen Professional articulating mounting bracket IP-67 compliant WNMS and WNMS Cloud support
© LigoWave.com, 2014
Product presentation UNLICENSED BAND
220 Mbps capacity (with a data bonding option to double capacity to 400 Mbps) 140000 PPS rate 28 dB radio power 23 dBi integrated radio Gigabit Ethernet port Dual-boot firmware image 802.3 af support Oled screen Professional articulating mounting bracket IP-67 compliant WNMS and WNMS Cloud support
© LigoWave.com, 2014
Product presentation UNLICENSED BAND
Packets with CoS nad / or DSCP mark
Packets with CoS nad / or DSCP mark
Queue 4, highest prio
Queue 1, lowest prio
Queue 2
Queue 3
Queue 4, highest prio
Queue 1, lowest prio
Queue 2
Queue 3
Sending queue
Sending queue
Strict policy: Highest priority traffic first Send lower priority traffic if
higher queue is empty only
WRR policy: Every queue has a weight Every queue sends data Higher priority queue
sends more data
© LigoWave.com, 2014
Test reports
© LigoWave.com, 2014
Test reports
LigoPTP UNITY performance
On a table link setup Measured TCP throughput Measured PPS Anritsu meter
© LigoWave.com, 2014
Test reports
© LigoWave.com, 2012
5,2
55,9
137,8
172,1
206,1 206,8
5,6
57,6
140,4
170,4
209,9 216,2
0
50
100
150
200
250
64 128 256 512 1024 1500
Simplex
Duplex
Throughput, Mbps
Packet size, B
110,1
99,9
87,1
47,4
25 17,9
117,6
103,2
89
46,9
27 18,7
0
20
40
60
80
100
120
140
64 128 256 512 1024 1500
Simplex
Duplex
PPS, k
Packet size, B
© LigoWave.com, 2014
Test reports
Dual link: LigoPTP 5-N UNITY + LigoPTP 5-N MiMo Pro performance
On a table double link setup / bonding Measured TCP throughput
© LigoWave.com, 2014
Test reports
Dual link: LigoPTP 5-N UNITY + LigoPTP 5-N MiMo Pro performance
On a table double link setup / bonding Measured TCP throughput
390,1 392,5
0
50
100
150
200
250
300
350
400
450
Simplex
Duplex
Throughput, Mbps
© LigoWave.com, 2014
Test reports
© LigoWave.com, 2014
LigoPTP 5-23 Pro performance Throughput on a table 10 km link throughput over Vilnius city
Made with Anritsu CMA3000
Test reports
© LigoWave.com, 2014
Test reports
LigoPTP 5-23 MiMo Pro on a table RFC2544 test
Packet size Max throughput, Mbps PPS, k
1518 210.73
49.843
1280 203.81
1024 193.55
768 173.83
512 122.35
Data layer throughput according to packet size and PPS:
50,00
70,00
90,00
110,00
130,00
150,00
170,00
190,00
210,00
230,00
1518 1280 1024 768 512
Packet size, bytes
Throughput, Mbps
© LigoWave.com, 2014
Test reports
Link configuration:
LigoPTP 5-23 MiMo Pro performance over 10 km
Mode Packet size, bytes 40 MHz 20 MHz
Throughput, Mbps PPS, k Throughput, Mbps PPS, k
Duplex 1500 138.23
61.58
63.86
53.13 Duplex 1024 138.22 61.19
Duplex 512 111.5 57.75
Duplex 256 90.58 46.08
PTP 5-23 MIMO Frequency, MHz 5760
Channel width, MHz 40/20 Transmit power, dBm 30
Antenna gain, dBi 23 Data rate Automatic
Distance, km 10 Receive level (receive power), dBm -54;-57/-55;-54
Data layer throughput and PPS according to packet size:
© LigoWave.com, 2014
Test reports
Graphs:
LigoPTP 5-23 MiMo Pro performance over 10 km
0
20
40
60
80
100
120
140
160
1500 1024 512 256
40 MHz
20 MHz
Packet size, bytes
Throughput, Mbps
0,00
10,00
20,00
30,00
40,00
50,00
60,00
70,00
40 MHz
20 MHz
PPS, k
© LigoWave.com, 2014
Test reports
10 km over water LigoPTP 5-23 MiMo performance 10 km: Shenzhen Xi Chong beach - Shenzhen San Men Dao wharf
© LigoWave.com, 2014
Test reports
10 km over water LigoPTP 5-23 MiMo performance
Traffic direction
Throughput, Mbps
20 MHz 40 MHz
IN 79.3 95.5
OUT 66.9 92.6
DUPLEX 73.6 111.7
Link throughput measured with Chariot
0
20
40
60
80
100
120
IN OUT DUPLEX
20 MHz
40 MHz
Throughput, Mbps
© LigoWave.com, 2014
LigoPTP 5-23 MiMo vs Motorola PTP500 lite: -Throughput test description 10 km link over Vilnius city The same antenna gain
The same transmit power High noisy/ less noisy channels
Test reports
© LigoWave.com, 2014
PTP 5-23 MIMO Motorola 54500 lite
Frequency, MHz 5480 5480
Channel width, MHz 20 15
Transmit power, dBm 25 Max 25 (real 21)
Antenna gain, dBi 23 23
Link symmetry Adaptive Adaptive
Distance, km 10 10
Receive level (receive power), dBm -55;-57/-57;-59 -60/-60
Achievable modulation Transmit 64QAM 0.83 Receive 64QAM 0.83
Transmit 64QAM 0.83 Receive 64QAM 0.83
PTP 5-23 MIMO, 20 MHz
Motorola 54500 lite, 15 MHz
Throughput ratio
TCP simplex ->, Mbps 63 35 1.35 TCP simplex <-, Mbps 62 36 1.29
TCP duplex, Mbps 59 45 0.98
Throughput results (tested with Chariot):
Test reports
LigoPTP 5-23 MiMo vs Motorola PTP500 lite Less noisy channel test
Equipment configuration:
© LigoWave.com, 2014
Throughput results (tested with Chariot):
Test reports
LigoPTP 5-23 MiMo vs Motorola PTP500 lite Very noisy channel test
Equipment configuration:
PTP 5-23 MIMO Motorola 54500 Lite Frequency, MHz 5520 5520
Channel width, MHz 20 15 Transmit power, dBm 25 Max 25 (real 24)
Antenna gain, dBi 23 23 Link symmetry Adaptive Adaptive Distance, km 10 10
Receive level (receive power), dBm -48;-55/-49;-53 -58/-58 Achievable modulation Transmit 64QAM 0.75
Receive 64QAM 0.75 Transmit QPSK 0.75
Receive 16QAM 0.75
PTP 5-23 MIMO, 20 MHz
Motorola 54500 Lite, 15 MHz
Throughput ratio
TCP simplex ->, Mbps 52 18 2.17 TCP simplex <-, Mbps 40 4.8 6.25
TCP duplex, Mbps 41 9 3.42
© LigoWave.com, 2014
Test reports
LigoPTP 5-23 MiMo vs Motorola PTP500 lite Summary
The difference in performance varies from 0.98 to 6.25 in terms of bit/Hz ratio in favor of LigoWave
equipment
LigoPTP 5-23 MiMo equipment extremely outperforms Motorola PTP 500 Lite series link in environment
with a lot of interference (average 3.9 times better performance)
LigoPTP 5-23 supports a full 5 GHz frequency range (5.180-5.915 GHz) comparing to Motorola (5.480-
5.715 GHz)
LigoPTP 5-23 MiMo supports 20 and 40 MHz channels comparing to 5, 10 and 15 MHz on Motorola
PTP 500 Lite series (both models support 5 MHz steps)
LigoWave equipment is 2 times lighter and this saves a good amount of transportation expenditure
LigoPTP 5-23 MiMo has external OLED screen for antenna alignment and other features like link test
running, device restarting and rebooting and statistics viewing, whereas Motorola PTP 500 Lite series
has internal beeper for antenna alignment only which might be hard to hear in a noisy outdoor
environment
Motorola PTP 500 Lite Series is 4 times more expensive than LigoPTP 5-23 MiMo
© LigoWave.com, 2014
Test reports
LigoPTP PRO and LigoPTP UNITY test in Hungary (by biggest WISP Z-NET):
© LigoWave.com, 2014
Test reports
LigoPTP PRO and LigoPTP UNITY test in Hungary (21.6 km link with 32 dBi dishes – noisy channel):
© LigoWave.com, 2014
Test reports
LigoPTP UNITY test in Hungary (53.4 km NLOS link with 34 dBi dishes):
© LigoWave.com, 2014
Test reports
25 km link test done by a WISP in Hungary (Nico Wireless Ltd.)
64 bytes 512 bytes 1024 bytes 2048 bytes
Throughput, Mbps 70 160 170 160
PPS rate 140000
© LigoWave.com, 2014
Test reports
LigoPTP in Hungaroring
LigoPTP PRO devices replaced Motorola PTP wireless links for the video surveillance setup used by
Hungarian police during the Formula 1 racing event in Hingaroring.
© LigoWave.com, 2014
Long distance links in Mexico: First link 47 km: Cerro Culagua -
Cerro de La Viga La Cruz
32 dBi antennas 122 Mbps throughput
Test reports
Google maps and link calculator screenshots
Picture of a master side
© LigoWave.com, 2014
Test reports
Long distance links in Mexico: Second link 70 km: Cerro Culagua – El Tule
32 dBi antennas 74 Mbps throughput
Google maps and link calculator screenshots
© LigoWave.com, 2014
Test reports
Long distance links in Mexico: Third link 77 km: Cerro de la Neveria -
Cerro de La Viga La Viga
32 dBi antennas
70 Mbps throughput
Google maps and link calculator screenshots
Pictures from the master and slave side
© LigoWave.com, 2014
LigoPTP 620S backhaul for Reinhardt College : • 43 km link: Atlanta suburban – Waleska, USA
• Frequency 11 GHz • Throughput 100 Mbit/s full-duplex • Link availability 99.999% • Link latency < 1ms
“LigoWave’s licensed PTP products offer us a scalable network solution to meet the capacity demands of tomorrow’s networks” – Ryan Carney, One Ring
Networks
Test reports
© LigoWave.com, 2014
Test reports
LigoPTP 5-23 MiMo links in Netherlands: • 300 m link from office to house • 190 Mbps throughput
© LigoWave.com, 2014
LigoPTP MiMo links in England
LigoPTP MiMo links in England: 200 LigoPTP MiMo links in various places of England
High throughput and high availability
Test reports
A screenshot from WNMS
© LigoWave.com, 2014
LigoPTP in Columbia:
Customer pics
© LigoWave.com, 2014
Current deployments in Tasmania:
Customer pics
© LigoWave.com, 2014
Long distance links in Mexico:
Customer pics
© LigoWave.com, 2014
Patriotic Irish customers:
Customer pics
© LigoWave.com, 2014
Video surveillance in Tahiti
Customer pics
© LigoWave.com, 2014
LigoPTP 620S in Tahiti
Customer pics
© LigoWave.com, 2014
LigoPTP in Indonesia
Customer pics
© LigoWave.com, 2014
LigoPTP 620S 18 GHz link in Ireland
Customer pics
© LigoWave.com, 2014
LigoPTP MiMo link in Ireland
Customer pics
© LigoWave.com, 2014
LigoPTP links in Turkey
Customer pics
© LigoWave.com, 2014
LigoPTP MiMo in Hungary
Customer pics
© LigoWave.com, 2014
LigoPTP in Suriname
© LigoWave.com, 2014
Fighting with the big boys
Customer pics
© LigoWave.com, 2014
LigoPTP in New Zealand
Customer pics
© LigoWave.com, 2014
LigoPTP in Suriname (10 links on a single tower)
Customer pics