wAP LTE kit

m RBwAPR-2nD&R11e-LTE tax

Ny produkt

24 objekt

I Lager

Klarna Från 75,00 kr /mån

1 304,00 kr exkl. moms.

Lägg till i önskelistan

Mer information

wAP LTE kit

The wAP LTE is a small weatherproof wireless access point with a built in cellular modem that supports 2G, 3G and 4G (LTE) connectivity. Connect to the wAP’s built-in 802.11b/g/n wireless and access the LTE network from your phone or any other wireless device. The wAP LTE also has one 10/100 Ethernet LAN port for your wired devices.

LTE cards are connected to two internal antennas with u.FL connectors, so if you want, you can unplug the connectors and add your own external LTE antenna for larger coverage. Unit has the several powering options - 9-30v PoE-in by Ethernet port, DC jack and Automotive connector, very handy in mobile devices like car, bus or train.

RBwAPR-2nD&R11e-LTE includes LTE modem that supports International LTE bands 1,2,3,7,8,20,38 and 40.

Product specifications

Details
Product codeRBwAPR-2nD&R11e-LTE
10/100 Ethernet ports1
2G CategoryClass12
3G CategoryR7 (21Mbps Downlinks, 5.76Mbps Uplink)
Antenna gain dBi for 2.4 GHz2
CPUQCA9531
CPU core count1
CPU nominal frequency650 MHz
DC jack9-30 V
Dimensions185 x 85 x 30 mm
LTE Category4 (150Mbps Downlink, 50Mbps Uplink)
LTE FDD bands1 (2100MHz) / 2 (1900MHz) / 3 (1800MHz) / 7 (2600MHz) / 8 (900 MHz) / 20 (800MHz)
LTE TDD bands38 (2600MHz) / 40 (2300MHz)
License level4
Max Power consumption8W
MiniPCI-e slots1
Number of DC inputs1
Number of chains2
Operating SystemRouterOS
PCB temperature monitorYes
PoE inPassive PoE
Size of RAM64 MB
Storage size16 MB
Storage typeFLASH
Tested ambient temperature-40°C .. +60°C tested
Voltage MonitorYes
Wireless 2.4 GHz chip modelQCA9531
Wireless 2.4 GHz standards802.11b/g/n

Wireless specifications

2.4 GHz
Transmit power (dBm)Receive Sensitivity
1MBit/s22-96
11MBit/s22-89
6MBit/s20-93
54MBit/s18-74
MCS020-93
MCS716-71

Ethernet test results

RBwAPR-2nD&R11e-LTEQCA9531 100M one port test
ModeConfiguration1518 byte512 byte64 byte
kppsMbpskppsMbpskppsMbps
Bridgingnone (fast path)8.198.423.596.3173.688.9
Bridging25 bridge filter rules8.198.423.596.370.936.3
Routingnone (fast path)8.198.423.596.3160.882.3
Routing25 simple queues8.198.423.596.390.846.5
Routing25 ip filter rules8.198.423.596.343.222.1
  1. All tests are done with Xena Networks specialized test equipment (XenaBay),and done according to RFC2544 (Xena2544)
  2. Max throughput is determined with 30+ second attempts with 0,1% packet loss tolerance in 64, 512, 1518 byte packet sizes
  3. Values in Italic indicate that max throughput was reached without maxing out CPU, but because board interface configuration was maxed out
  4. Test results show device maximum performance, and are reached using mentioned hardware and software configuration, different configurations most likely will result in lower results

Omdömen

Det finns inga kundrecensioner just nu.

Skriv din recension

wAP LTE kit

wAP LTE kit

7 andra produkter i samma kategori:

Kunder som köpt denna produkt köpte också:

wAP LTE kit <div class="medium-9 columns product-page"> <h1>wAP LTE kit</h1> <p>The wAP LTE is a small weatherproof wireless access point with a built in cellular modem that supports 2G, 3G and 4G (LTE) connectivity. Connect to the wAP’s built-in 802.11b/g/n wireless and access the LTE network from your phone or any other wireless device. The wAP LTE also has one 10/100 Ethernet LAN port for your wired devices.</p> <p></p> <p>LTE cards are connected to two internal antennas with u.FL connectors, so if you want, you can unplug the connectors and add your own external LTE antenna for larger coverage. Unit has the several powering options - 9-30v PoE-in by Ethernet port, DC jack and Automotive connector, very handy in mobile devices like car, bus or train.</p> <p></p> <p>RBwAPR-2nD&amp;R11e-LTE includes LTE modem that supports International LTE bands 1,2,3,7,8,20,38 and 40.</p> <div class="link-bar"> <ul class="important-links"><li><a href="https://i.mt.lv/routerboard/files/wAP_lte_kit-170720142523.pdf"><img src="https://mikrotik.com/img/doclink.png" alt="" />Brochure</a></li> <li><a href="https://i.mt.lv/routerboard/files/wAP-LTE.pdf"><img src="https://mikrotik.com/img/doclink.png" alt="" />Quick Guide</a></li> </ul></div> <h1 id="spec">Product specifications</h1> <table class="table product-table"><thead><tr><th colspan="2">Details</th></tr></thead><tbody><tr><td>Product code</td> <td>RBwAPR-2nD&amp;R11e-LTE</td> </tr><tr><td>10/100 Ethernet ports</td> <td>1</td> </tr><tr><td>2G Category</td> <td>Class12</td> </tr><tr><td>3G Category</td> <td>R7 (21Mbps Downlinks, 5.76Mbps Uplink)</td> </tr><tr><td>Antenna gain dBi for 2.4 GHz</td> <td>2</td> </tr><tr><td>CPU</td> <td>QCA9531</td> </tr><tr><td>CPU core count</td> <td>1</td> </tr><tr><td>CPU nominal frequency</td> <td>650 MHz</td> </tr><tr><td>DC jack</td> <td>9-30 V</td> </tr><tr><td>Dimensions</td> <td>185 x 85 x 30 mm</td> </tr><tr><td>LTE Category</td> <td>4 (150Mbps Downlink, 50Mbps Uplink)</td> </tr><tr><td>LTE FDD bands</td> <td>1 (2100MHz) / 2 (1900MHz) / 3 (1800MHz) / 7 (2600MHz) / 8 (900 MHz) / 20 (800MHz)</td> </tr><tr><td>LTE TDD bands</td> <td>38 (2600MHz) / 40 (2300MHz)</td> </tr><tr><td>License level</td> <td>4</td> </tr><tr><td>Max Power consumption</td> <td>8W</td> </tr><tr><td>MiniPCI-e slots</td> <td>1</td> </tr><tr><td>Number of DC inputs</td> <td>1</td> </tr><tr><td>Number of chains</td> <td>2</td> </tr><tr><td>Operating System</td> <td>RouterOS</td> </tr><tr><td>PCB temperature monitor</td> <td>Yes</td> </tr><tr><td>PoE in</td> <td>Passive PoE</td> </tr><tr><td>Size of RAM</td> <td>64 MB</td> </tr><tr><td>Storage size</td> <td>16 MB</td> </tr><tr><td>Storage type</td> <td>FLASH</td> </tr><tr><td>Tested ambient temperature</td> <td>-40°C .. +60°C tested</td> </tr><tr><td>Voltage Monitor</td> <td>Yes</td> </tr><tr><td>Wireless 2.4 GHz chip model</td> <td>QCA9531</td> </tr><tr><td>Wireless 2.4 GHz standards</td> <td>802.11b/g/n</td> </tr></tbody></table><h1>Wireless specifications</h1> <table class="table product-table"><tbody><tr><th colspan="4">2.4 GHz</th></tr><tr><th></th><th>Transmit power (dBm)</th><th>Receive Sensitivity</th></tr><tr><td>1MBit/s</td> <td>22</td> <td>-96</td> </tr><tr><td>11MBit/s</td> <td>22</td> <td>-89</td> </tr><tr><td>6MBit/s</td> <td>20</td> <td>-93</td> </tr><tr><td>54MBit/s</td> <td>18</td> <td>-74</td> </tr><tr><td>MCS0</td> <td>20</td> <td>-93</td> </tr><tr><td>MCS7</td> <td>16</td> <td>-71</td> </tr></tbody></table><div class="row"> <div class="large-12 columns demo-gallery"> <h1>Included parts</h1> <ul class="small-block-grid-4 included-parts"><li><a href="https://img.routerboard.com/mimg/part11391161548m.jpg"> <img src="https://img.routerboard.com/mimg/part11391161548s.jpg" alt="part11391161548s.jpg" /> 24V 0.8A power adapter </a></li> <li><a href="https://img.routerboard.com/mimg/part101391160012m.jpg"> <img src="https://img.routerboard.com/mimg/part101391160012s.jpg" alt="part101391160012s.jpg" /> PoE injector </a></li> <li><a href="https://img.routerboard.com/mimg/part511441356333m.jpg"> <img src="https://img.routerboard.com/mimg/part511441356333s.jpg" alt="part511441356333s.jpg" /> K35 screw kit </a></li> <li><a href="https://img.routerboard.com/mimg/part91391160033m.jpg"> <img src="https://img.routerboard.com/mimg/part91391160033s.jpg" alt="part91391160033s.jpg" /> Plastic zip tie </a></li> <li><a href="https://img.routerboard.com/mimg/part641499777512m.jpg"> <img src="https://img.routerboard.com/mimg/part641499777512s.jpg" alt="part641499777512s.jpg" /> 0.35m 4pin Automotive adapter cable </a></li> <li><a href="https://img.routerboard.com/mimg/part661499777872m.jpg"> <img src="https://img.routerboard.com/mimg/part661499777872s.jpg" alt="part661499777872s.jpg" /> wAP mount bracket </a></li> <li><a href="https://img.routerboard.com/mimg/part651499777780m.jpg"> <img src="https://img.routerboard.com/mimg/part651499777780s.jpg" alt="part651499777780s.jpg" /> wAP desktop stand </a></li> </ul></div> </div> <div class="row"> <div class="large-12 columns"> <h2>Ethernet test results</h2> <table class="table performance-table"><thead><tr><td colspan="2">RBwAPR-2nD&amp;R11e-LTE</td> <td colspan="6">QCA9531 100M one port test</td> </tr><tr><td rowspan="2">Mode</td> <td rowspan="2">Configuration</td> <td colspan="2">1518 byte</td> <td colspan="2">512 byte</td> <td colspan="2">64 byte</td> </tr><tr><td>kpps</td> <td>Mbps</td> <td>kpps</td> <td>Mbps</td> <td>kpps</td> <td>Mbps</td> </tr></thead><tbody><tr><td>Bridging</td> <td>none (fast path)</td> <td class="kpps size1518">8.1</td> <td class="mbps size1518">98.4</td> <td class="kpps size512">23.5</td> <td class="mbps size512">96.3</td> <td class="kpps size64">173.6</td> <td class="mbps size64">88.9</td> </tr><tr><td>Bridging</td> <td>25 bridge filter rules</td> <td class="kpps size1518">8.1</td> <td class="mbps size1518">98.4</td> <td class="kpps size512">23.5</td> <td class="mbps size512">96.3</td> <td class="kpps size64">70.9</td> <td class="mbps size64">36.3</td> </tr><tr><td>Routing</td> <td>none (fast path)</td> <td class="kpps size1518">8.1</td> <td class="mbps size1518">98.4</td> <td class="kpps size512">23.5</td> <td class="mbps size512">96.3</td> <td class="kpps size64">160.8</td> <td class="mbps size64">82.3</td> </tr><tr><td>Routing</td> <td>25 simple queues</td> <td class="kpps size1518">8.1</td> <td class="mbps size1518">98.4</td> <td class="kpps size512">23.5</td> <td class="mbps size512">96.3</td> <td class="kpps size64">90.8</td> <td class="mbps size64">46.5</td> </tr><tr><td>Routing</td> <td>25 ip filter rules</td> <td class="kpps size1518">8.1</td> <td class="mbps size1518">98.4</td> <td class="kpps size512">23.5</td> <td class="mbps size512">96.3</td> <td class="kpps size64">43.2</td> <td class="mbps size64">22.1</td> </tr></tbody></table><ol class="meta-test"><li>All tests are done with Xena Networks specialized test equipment (XenaBay),and done according to RFC2544 (Xena2544)</li> <li>Max throughput is determined with 30+ second attempts with 0,1% packet loss tolerance in 64, 512, 1518 byte packet sizes</li> <li>Values in Italic indicate that max throughput was reached without maxing out CPU, but because board interface configuration was maxed out</li> <li>Test results show device maximum performance, and are reached using mentioned hardware and software configuration, different configurations most likely will result in lower results</li> </ol></div> </div> </div>
1 304,00 kr