Lancom LN-1700B User Manual

Wireless LAN

LANCOM LN-1700B

Enterprise-class Wi-Fi for high-density environments

Achieving an excellent Wi-Fi experience in areas with a large number of clients demands a future-proof

infrastructure. This access point offers 11ac Wave 2 WLAN (Wi-Fi 5) for best-quality Wi-Fi in radio networks with

large numbers of parallel users. A Bluetooth Low Energy radio module is also integrated to facilitate modern BLE

beaconing-based applications. Reason enough for you to trust in reliable and secure Wi-Fi “Made in Germany”.

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Dual concurrent Wi-Fi – parallel operation at 2.4 and 5 GHz with up to 1733 Mbps with IEEE 802.11ac Wave 2

and 450 Mbps with IEEE 802.11n

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Bluetooth Low Energy radio module for innovative beaconing applications

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Power supply optionally by Power over Ethernet (IEEE 802.3at) or power-supply unit

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Zero-touch deployment by LANCOM WLAN controller or LANCOM Management Cloud

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Understated LANCOM design with integrated antennas

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Easy and secure integration of external users with the Public Spot option

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Available as individual items or as 10-piece bulk items for large installations

DATASHEET

LANCOM LN-1700B

Dual concurrent Wi-Fi with up to 1733 Mbps

The LANCOM LN-1700B features two Wi-Fi radio modules,

one offering IEEE 802.11ac Wave 2 and the other offering

IEEE 802.11n. This provides fast Wi-Fi to 11n-clients in the

2.4-GHz frequency band and also the growing number of

modern 11ac-enabled devices in the 5-GHz band.

Integrated beaconing technology

The Bluetooth Low Energy radio module integrated into the

LANCOM LN-1700B is the technical basis for modern BLE

Beaconing applications such as push advertisement services

to mobile devices (iBeacon). With future firmware updates

additional services like asset tracking / management can be

realized via partner solutions.

4x4 multi-user MIMO

Multi-user MIMO (MU-MIMO for short) simultaneously

distributes all of the available spatial streams of the LANCOM

LN-1700B between several different Wave 2 clients, rather

than one after the other as was formerly the case. The

available bandwidth is used efficiently and delays in the

wireless network are substantially reduced.

160-MHz channel width

Increasing the channel width from 80 to 160 MHz doubles

the performance for Wave 2 clients. By optimizing the use

of the radio spectrum, a client can be supplied with a data

rate of up to 1733 Mbps.

LANCOM security for wireless networks

With numerous integrated security features such as IEEE

802.1X, this enterprise-class access point provides optimal

security for networks. Administrators and employees alike

benefit from professional security policies on the network.

Managed via LANCOM Management Cloud, WLAN

controller, or stand-alone

The LANCOM LN-1700B offers the greatest possible versatility

in operation: Managed through the LANCOM Management

Cloud, it integrates into a holistic, automated network

orchestration system based on software-defined networking

technology. It is also able to operate with central

management by LANCOM WLAN controller or even in

stand-alone mode.

Maximum freedom of design for guest Internet access

The LANCOM Public Spot option provides reliable and secure

Internet access for guests, visitors, partners or customers, all

based on a common infrastructure. The guest network is at

all times strictly and securely separated from the internal

network. There is no need for any additional hardware

components, which makes the LANCOM Public Spot option

the ideal solution for the provision of secure hotspots.

Active Radio Control for dynamic radio-field

optimization

The LANCOM LN-1700B supports the Wi-Fi optimization

feature LANCOM Active Radio Control. This intelligent

combination of innovative features included with the LCOS

operating system—such as Spectral Scan, Band Steering,

Adaptive Noise Immunity, Adaptive RF Optimization, Airtime

Fairness, and Client Steering—sustainably increases Wi-Fi

performance and supports administrators with professional

tools for Wi-Fi management.

DATASHEET

LANCOM LN-1700B

WLAN product specifications

2400-2483.5 MHz (ISM), 5150-5350 MHz and 5470-5725 MHz (depending on country-specific restrictions)Frequency band 2.4 GHz and 5 GHz

up to 3 dBi in 2.4 GHz, up to 4.5 dBi in 5 GHz (per antenna (3) @ WLAN-1 and per antenna (4) @ WLAN-2)Integrated Antenna Gain

Data rates IEEE 802.11ac/n

Data rates IEEE 802.11n

Data rates IEEE 802.11a/ h

Data rates IEEE 802.11b/g

Output power at radio module WLAN-1, 5
GHz

Output power at radio module WLAN-2, 5
GHz

Output power at radio module WLAN-1,

2.4 GHz

Receiver sensitivity WLAN-1, 5 GHz

Receiver sensitivity WLAN-2, 5 GHz

Receiver sensitivity WLAN-1, 2.4 GHz

Radio channels 5 GHz

Multi-SSID

1733 Mbps according to IEEE 802.11ac with MCS9 (fallback to 6,5 Mbps with MCS0). Compatible to IEEE 802.11ac/n/a, IEEE 802.11ac/n,
IEEE 802.11n/a compatibility mode or pure IEEE 802.11ac, pure IEEE 802.11n, pure IEEE 802.11a moder and data rates selectable

450 Mbps according to IEEE 802.11n with MCS23 (fallback to 6,5 Mbps with MCS0). Compatible to IEEE 802.11a/n, IEEE 802.11g/n,
IEEE 802.11b/g/n or IEEE 802.11b/g compatibility mode or pure IEEE 802.11n, pure IEEE 802.11a, IEEE 802.11g or pure IEEE 802.11b
mode and data rates selectable

54 Mbps (fallback to 48, 36 , 24, 18, 12, 9, 6 Mbps, Automatic Rate Selection), fully compatible with TPC (adjustable power output)
and DFS (automatic channel selection, radar detection) and data rates selectable

54 Mbps to IEEE 802.11g (fallback to 48, 36, 24, 18, 12, 9, 6 Mbps, Automatic Rate Selection) compatible to IEEE 802.11b (11, 5.5,
2, 1 Mbps, Automatic Rate Selection), IEEE 802.11b/g compatibility mode or pure IEEE 802.11g or pure IEEE 802.11b and data rates
selectable

Up to 150 m (up to 30 m in buildings)Range IEEE 802.11ac/n/a/g/b *

Maximum transmit power may be limited below these numbers to ensure compliance with local regulatory requirements. IEEE 802.11a/h:
+17 up to +18 dBm @ 6 up to 48 Mbps, +13 up to +15 dBm @ 54 Mbps, IEEE 802.11n: +17 up to +18 dBm @ (MCS0/8/16, 20 MHz),
+11 up to +13 dBm @ (MCS7/15/23, 20 MHz), +16 up to +17 dBm @ (MCS0/8/16, 40 MHz), +9 up to +12 dBm @ (MCS7/15/23, 40
MHz)

IEEE 802.11a/h: +21 dBm @ 6 up to 36 MBit/s and +20 dBm @ 48 up to 54 MBit/s IEEE 802.11ac: 23 dBm @ (MCS 0/1, 20 MHz), 22
dBm @ (MCS 2/3, 20 MHz), 21 dBm @ (MCS 4/5, 20 MHz), 20 dBm @ (MCS6/7, 20 MHz), 19 dBm @ (MCS8, 20 MHz), 18 dBm @ (MCS9,
20 MHz), 23 dBm @ (MCS0/1, 40 MHz), 22 dBm @ (MCS2/3, 40 MHz), 21 dBm @ (MCS4/5, 40 MHz), 20 dBm @ (MCS6, 40 MHz), 19
dBm @ (MCS7/8, 40 MHz), 18 dBm @ (MCS9, 40 MHz), 23 dBm @ (MCS0/1, 80 MHz), 22 dBm @ (MCS2/3, 80 MHz), 21 dBm @ (MCS4/5,
80 MHz), 12 dBm @ (MCS6, 80 MHz), 19 dBm @ (MCS7, 80 MHz), 18 dBm @ (MCS8/9, 80 MHz), 22 dBm @ (MCS0/1, 160 MHz), 21
dBm @ (MCS2/3, 160 MHz), 20 dBm @ (MCS4/5, 160 MHz), 19 dBm @ (MCS6, 160 MHz), 18 dBm @ (MCS7, 160 MHz), 17 dBm @
(MCS8/9, 160 MHz)

Maximum transmit power may be limited below these numbers to ensure compliance with local regulatory requirements. IEEE 802.11b:
+22 dBm @ 1 and 2 Mbps, +22 dBm @ 5,5 and 11 Mbps, IEEE 802.11g: +22 dBm @ 6 up to 36 Mbps, +20 dBm @ 48 Mbps, +18
dBm @ 54 Mbps, IEEE 802.11n: +22 dBm @ (MCS0/8/16, 20 MHz), +16 dBm @ (MCS7/15/23, 20 MHz), +21 dBm @ (MCS0/8/16, 40
MHz), +15 dBm @ (MCS7/15/23, 40 MHz)

Transmission power reduction in software in 1 dB steps to min. 0.5 dBmMinimum transmission power

IEEE 802.11a/h: -98 dBm @ 6 Mbps, -81 dBm @ 54 Mbps, IEEE 802.11n: -94 dBm @ (MCS0, 20 MHz), -76dBm @ (MCS 7, 20 MHz),

-92 dBm @ (MCS0, 40 MHz), -72 dBm @ (MCS7, 40 MHz)

IEEE 802.11a/h: -88 dBm @ 6 MBit/s, -87 dBm @ 9 MBit/s, -85 dBm @ 12 MBit/s, -83 dBm @18 MBit/s, -80 dBm @ 24 MBit/s, -77
dBm @36 MBit/s, -74dBm @ 48 MBit/s, -73dBm @ 48 MBit/s, IEEE 802.11n: -88 dBm @ (MCS0, HT20), -85 dBm @ (MCS1, HT20), -83
dBm @ (MCS2, HT20), -79 dBm @ (MCS3, HT20), -75 dBm @ (MCS4, HT20), -74 dBm @ (MCS5, HT20), -73 dBm @ (MCS6, HT20), -71
dBm @ (MCS7, HT20), -86 dBm @ (MCS0, HT40), -84 dBm @ (MCS1, HT40), -82 dBm @ (MCS2, HT40), -79 dBm @ (MCS3, HT40), -76
dBm @ (MCS4, HT40), -73 dBm @ (MCS5, HT40), -71 dBm @ (MCS6, HT40), -69 dBm @ (MCS7, HT40), IEEE 802.11ac: -88 dBm @
(MCS0, VHT20), -85 dBm @ (MCS1, VHT20), -83 dBm @ (MCS2, VHT20), -79 dBm @ (MCS3, VHT20), -75 dBm @ (MCS4, VHT20), -74
dBm @ (MCS5, VHT20), -73 dBm @ (MCS6, VHT20), -71 dBm @ (MCS7, VHT20), -86 dBm @ (MCS0, VHT40), -84 dBm @ (MCS1, VHT40),

-82 dBm @ (MCS2, VHT40), -79 dBm @ (MCS3, VHT40), -76 dBm @ (MCS4, VHT40), -73 dBm @ (MCS5, VHT40), -71 dBm @ (MCS6,
VHT40), -69 dBm @ (MCS7, VHT40)

IEEE 802.11b: -97 dBm @ 1 MBit/s, -93 dBm @ 11 MBit/s, IEEE 802.11g: -95dBm @ 6 MBit/s, -81dBm @ 54 MBit/s IEEE 802.11n: -94
dBm @ 6,5MBit/s (MCS0, 20 MHz), -77 dBm @ 65 MBit/s (MCS7, 20 MHz), -91 dBm @ 15 MBit/s (MCS0, 40 MHz), -74 dBm @ 150
MBit/s (MCS7, 40 MHz)

Up to 26 non-overlapping channels (available channels and further obligations such as automatic DFS dynamic channel selection
depending on national regulations)

Up to 13 channels, max. 3 non-overlapping (depending on country-specific restrictions)Radio channels 2.4 GHz

Up to 31 (Simultaneous use of up to 16 independent WLAN networks at WLAN interface 1 and up to 15 independent WLAN networks
at WLAN interface 2.

Up to 512 clients (recommended)Concurrent WLAN clients

Wireless Quality Indicators (WQI), Hotspot 2.0Others

The effective distances and transmission rates that can be achieved are depending of the onsite RF conditions*) Note

LCOS 10.30