MikroTik wAP AC Dual-Band Access Point with LTE Modem
Please contact us for stocking information.
The MikroTik wAP ac LTE is a cost-effective dual-band home access point with two Gigabit Ethernet ports and LTE backup capabilities. It is weatherproof and can be mounted on walls, ceilings, or poles, withstanding temperatures from -30 C° to +60 C. This compact device is powered by a four-core CPU and 128 MB RAM, providing strong and reliable connection in any situation. It also features dual-chain wireless for coverage in crowded environments, with support for various LTE bands.
Tech Specs
| Device Specifications | |
|---|---|
| General | |
| Product code | RBwAPGR-5HacD2HnD&R11e-LTE |
| Suggested price | $189.00 |
| Architecture | ARM 32bit |
| CPU | IPQ-4018 |
| CPU core count | 4 |
| CPU nominal frequency | 716 MHz |
| CPU Threads count | 4 |
| Switch chip model | IPQ-4018 |
| RouterOS license | 4 |
| Operating System | RouterOS |
| Size of RAM | 128 MB |
| Storage size | 16 MB |
| Storage type | FLASH |
| MTBF | Approximately 100'000 hours at 25°C |
| Tested ambient temperature | -30°C to 50°C |
| Powering | |
| Number of DC inputs | 2 (DC jack, PoE-IN) |
| DC jack input Voltage | 10-57 V |
| Max power consumption | 14 W |
| Max power consumption without attachments | 10 W |
| PoE in | 802.3af/at |
| Cooling type | Passive |
| PoE in input Voltage | 18-57 V |
| Mobile | |
| 2G Category | Class12 |
| 2G bands | 2 (1900MHz) 3 (1800MHz) 5 (850MHz) 8 (900MHz) |
| 3G Category | R7 (21Mbps Downlink, 5.76Mbps Uplink) |
| 3G bands | 1 (2100MHz) 2 (1900MHz) 5 (850MHz) 8 (900MHz) |
| LTE Category | 4 (150Mbps Downlink, 50Mbps Uplink) |
| LTE FDD bands | 1 (2100MHz) 2 (1900MHz) 3 (1800MHz) 7 (2600MHz) 8 (900MHz) 20 (800MHz) |
| LTE TDD bands | 38 (2600MHz) 40 (2300MHz) |
| TAC | 35565409 |
| Wireless Specifications | |
| Wireless 2.4 GHz Max data rate | 300 Mbit/s |
| Wireless 2.4 GHz Number of chains | 2 |
| Wireless 2.4 GHz standards | 802.11b/g/n |
| Antenna gain (2.4 GHz) | 2.5 dBi |
| Wireless 2.4 GHz chip model | IPQ-4018 |
| Wireless 2.4 GHz generation | Wi-Fi 4 |
| Wireless 5 GHz Max data rate | 867 Mbit/s |
| Wireless 5 GHz Number of chains | 2 |
| Wireless 5 GHz standards | 802.11a/n/ac |
| Antenna gain (5 GHz) | 2.5 dBi |
| Wireless 5 GHz chip model | IPQ-4018 |
| Wireless 5 GHz generation | Wi-Fi 5 |
| Ethernet | |
| 10/100/1000 Ethernet ports | 2 |
| Peripherals | |
| Number of SIM slots | 1 Modem (Micro SIM) |
| MiniPCI-e slots | 1 |
| Other | |
| PCB temperature monitor | Yes |
| Voltage Monitor | Yes |
| Certification | CE, FCC, IC, EAC, ROHS |
| IP | IP54 |
FAQs
Q1: What is the MikroTik RBwAPGR‑5HacD2HnD & R11e‑LTE used for?
A: It is a dual‑band wireless access point and router with built‑in LTE modem, designed to provide both Wi‑Fi and cellular internet connectivity in a compact, weather‑resistant form — suitable for home, small office or remote‑site use.
Q2: What are the key hardware and wireless specifications?
A: It has a quad‑core IPQ‑4018 CPU at 716 MHz, 128 MB RAM, 16 MB flash storage; supports dual‑chain 802.11b/g/n on 2.4 GHz and dual‑chain 802.11a/n/ac on 5 GHz; and provides two Gigabit Ethernet ports for wired connectivity.
Q3: What LTE capabilities does the device support?
A: The built‑in LTE modem supports 4G LTE (plus 2G/3G fall‑back), with LTE FDD bands including 1, 2, 3, 7, 8, 20 and LTE TDD bands 38, 40 (band availability can depend on region). It connects via a Micro‑SIM slot.
Q4: How is the unit powered and what are its power requirements?
A: Power can be provided either via a DC jack or PoE‑in (802.3af/at), with input voltage range 10–57 V (jack) or 18–57 V (PoE), and typical maximum power consumption around 14 W.
Q5: In what environments can this device be used, and how is it mounted?
A: It is weather‑resistant (suitable for indoor or protected outdoor use), can handle ambient temperatures from –30 °C to +60 °C, and supports mounting on walls, ceilings, or poles — making it versatile for home, office, or remote‑site deployments.
Resources
Quick Guide - wAP R ac series - Quick Guides - MikroTik Documentation