Table of Contents
About the Conduit® AP 300 Series Access Point
|
Conduit AP
300 Series (MTCAP3) securely connects
thousands of |
 |
Intended Use
The Conduit AP is designed for indoor use and industrial applications, such as smart buildings, retail spaces, agricultural environments, and other deployments where reliability and secure long-range data communication is essential.
MTCAP3 Ordering Options
| Ordering Part Number | Description | Cellular Region |
|---|---|---|
| MTCAP3-EN-A23UEA-LWM.R1 | Ethernet-only mPower programmable access point with LoRa 915 MHz and external LoRa antenna |
Australia Canada New Zealand United States |
| MTCAP3-EN-A23UEA-DWM.R1 | Ethernet-only mPower programmable access point with LoRa 915 MHz | |
| MTCAP3-LNA7D-A23UEA-LUM.R1 | LTE Cat 4 mPower programmable access point with LoRa 915 MHz and external LoRa antenna |
Canada United States |
| MTCAP3-LNA7D-A23UEA-DUM.R1 | LTE Cat 4 mPower programmable access point with LoRa 915 MHz | |
| MTCAP3- L4G2D-A23UEA-LUM-BAC | LTE Cat 4 mPower/ Read More</a></p></div>" href="https://multitech.com/iot-wiki/bacnet/" >BACnet programmable access point with LoRa 915 MHz and external LoRa antenna |
|
| MTCAP3-L4G2D-A23UEA-DUM | LTE Cat 4 mPower programmable access point with LoRa 915 MHz and internal LoRa antenna |
Australia Canada New Zealand European Union United Kingdom United States |
| MTCAP3-L4G2D-A23UEA-LUM | LTE Cat 4 mPower programmable access point with LoRa 915 MHz and external LoRa antenna | |
| MTCAP3-L4G2D-A23EEA-DEM | LTE Cat 4 mPower programmable access point with LoRa 868 MHz and internal LoRa antenna | |
| MTCAP3-L4G2D-A23EEA-LEM | LTE Cat 4 mPower programmable access point with LoRa 868 MHz and external LoRa antenna | |
| MTCAP3-L4G2D-A23EEA-LEM-BAC | LTE Cat 4 mPower/BACnet programmable access point with LoRa 868 MHz and external LoRa antenna |
European Union United Kingdom |
| MTCAP3-LEU7-A23EEA-LEM.R1 | LTE Cat 4 mPower programmable access point with LoRa 868 MHz and external LoRa antenna | |
| MTCAP3-LEU7-A23EEA-DEM.R1 | LTE Cat 4 mPower programmable access point with LoRa 868 MHz | |
| MTCAP3-EN-A23EEA-LEM.R1 | Ethernet-only mPower programmable access point with LoRa 868 MHz and external LoRa antenna | |
| MTCAP3-EN-A23EEA-DEM.R1 | Ethernet-only mPower programmable access point with LoRa 868 MHz |
Specifications
Specifications for 915 MHz Models
| Category | Description |
|---|---|
| General | |
| Standards | LoRaWAN 1.0.4 specifications |
| LTE FDD Cat 4, 3GPP release 11 compliant | |
| WCDMA/GSM fallback | |
| LoRa radio frequency | 915 MHz ISM band |
| Cell radio frequency bands (MHz) for L4G2D | Read More</a></p></div>" href="https://multitech.com/iot-wiki/4g-fourth-generation-cellular-networks/" >4G LTE FDD (Europe): B3 (1800), B7 (2600), B8 (900), B20 (800) |
| 2G (Europe fallback): B2 (1900), B3 (1800), B5 (850), B8 (900) | |
| 4G LTE FDD (AT&T): B2 (1900), B4 (AWS1700), B12 (700), B14 (700) | |
| 4G LTE FDD (Verizon): B2 (1900), B4 (AWS1700), B13 (700) | |
| 4G LTE FDD (Anterix): B8‑US (900) | |
| 4G LTE FDD (APAC): B1 (2100), B9 (1800), B18 (800), B19 (850), B26 (850), B28 (700) | |
Read More</a></p></div>" href="https://multitech.com/iot-wiki/3g-third-generation-cellular-networks/" >3G: B1 (2100), B2 (1900), B4 (AWS1700), B5 (850), B6, B8 (900), B19 (850) |
|
| 2G: B2 (1900), B3 (1800), B5 (850), B8 (900) | |
| 4G LTE FDD bands: B25 (1900) | |
| Cell radio frequency bands (MHz) for LNA7D | LTE FDD: B2 (1900), B4 (AWS1700), B5 (850), B12 (700), B13 (700), B25 (1900), B26 (850) |
| WCDMA: B2 (1900), B4 (AWS1700), B5 (850) | |
| Physical Description | |
| Dimensions | 165 (6.5) × 135 (5.3) × 36 (1.4) mm (in) |
| Weight | 0.11 kg (0.24 lb) without antenna |
| Chassis | PC-ABS |
| Power Requirements | |
| Operating voltage | 5 VDC @ 2.5A |
| AC power requirement | Ethernet active, cellular connection established, LoRa RX: 2W |
| Ethernet active, cellular connection at maximum transmit power, LoRa RX+TX: 5W | |
| LoRa tx power | Australia and North America: 29.1 dBm maximum EIRP (includes external LoRa antenna) |
| Japan: 14 dBm maximum EIRP (includes external LoRa antenna) | |
| New Zealand: 29.9 dBm maximum EIRP (includes external LoRa antenna) | |
| Environment | |
| Operating temperature1 | 0 °C to 70 °C (32 °F to 158 °F) |
| Storage temperature | -40 °C to 85 °C (−40 °F to 185 °F) |
| Humidity | 20%-90%, RH non-condensing |
| Certifications | |
| EMC and radio compliance | Read More</a></p></div>" href="https://multitech.com/iot-wiki/fcc/" >FCC Part 15 Class B |
| FCC Part 15.247 (LoRa) | |
| FCC 22H, 24E, 27, 90 | |
| RSS130,RSS133, RSS139 | |
| RSS210 (LoRa) | |
| ASNZ 4268 | |
| Safety compliance | UL 62368-1 2nd Edition |
| UL / IEC 62368-1 | |
Specifications for 868 MHz Models
| Category | Description |
|---|---|
| General | |
| Standards | LoRaWAN 1.0.4 specifications |
| LTE FDD Cat 4, 3GPP release 11 compliant (LEU7 models only) | |
| WCDMA/GSM fallback | |
| LoRa radio frequency | 868 MHz ISM |
| Cell radio frequency bands (MHz) for L4G2D | 4G LTE FDD (Europe): B3 (1800), B7 (2600), B8 (900), B20 (800) |
| 2G (Europe fallback): B2 (1900), B3 (1800), B5 (850), B8 (900) | |
| 4G LTE FDD (AT&T): B2 (1900), B4 (AWS1700), B12 (700), B14 (700) | |
| 4G LTE FDD (Verizon): B2 (1900), B4 (AWS1700), B13 (700) | |
| 4G LTE FDD (Anterix): B8‑US (900) | |
| 4G LTE FDD (APAC): B1 (2100), B9 (1800), B18 (800), B19 (850), B26 (850), B28 (700) | |
| 3G: B1 (2100), B2 (1900), B4 (AWS1700), B5 (850), B6, B8 (900), B19 (850) | |
| 2G: B2 (1900), B3 (1800), B5 (850), B8 (900) | |
| 4G LTE FDD bands: B25 (1900) | |
| Cell radio frequency bands (MHz) for LEU7 | LTE FDD: B1 (2100), B3 (1800), B7 (2600), B8 (900), B20 (800), B28A (700) |
| WCDMA: B1 (2100), B8 (900) | |
| GSM: B3 (1800), B8 (900) | |
| Physical Description | |
| Dimensions | 165 (6.5) × 135 (5.3) × 36 (1.4) mm (in) |
| Weight | 0.11 kg (0.24 lb) without antenna |
| Chassis | PC-ABS |
| Power Requirements | |
| Operating voltage | 5 VDC @ 2.5A |
| AC power requirement | Ethernet active, cellular connection established, LoRa RX: 2W |
| Ethernet active, cellular connection at maximum transmit power, LoRa RX+TX: 5W | |
| LoRa tx power | Internal antenna models: 12.3–24.8 dBm maximum ERP; maximum ERP is 12.3 dBm for whole band, except 24.8 dBm at 869.525 MHz |
| External antenna models: 13.0–25.5 dBm maximum ERP; maximum ERP is 13.0 dBm for whole band, except 25.5 dBm at 869.525 MHz | |
| Environment | |
| Operating temperature3 | 0 °C to 70 °C (32 °F to 158 °F) |
| Storage temperature | -40 °C to 85 °C (−40 °F to 185 °F) |
| Humidity | 20%-90% RH, non-condensing |
| Certifications | |
| EMC and radio compliance | CE Mark, RED (EU) |
| EN 300 220-1 / EN 301 489-1 / EN 301 908-1 (see Declaration of Conformity for details) | |
| Safety compliance | UL/IEC 62368-1 |
mPower™ Edge Intelligence
mPower™ Edge Intelligence is an embedded software offering to deliver programmability,
network flexibility, enhanced security, and manageability for scalable Industrial
Internet of Things (
Read More</a></p></div>" href="https://multitech.com/iot-wiki/industrial-iot-iiot/" >IIoT) solutions. mPower represents the unification and evolution of
well-established MultiTech smart router and gateway firmware platforms.
mPower Edge Intelligence simplifies integration with a variety of popular upstream IoT platforms to streamline edge-to-cloud data management and analytics, while also providing the programmability and processing capability to execute critical tasks at the edge of the network to reduce latency; control network and cloud services costs, and ensure core functionality – even in instances when network connectivity may not be available. In response to evolving customer security requirements, mPower Edge Intelligence incorporates a host of new security features including signed firmware validation, secure boot, new Cloud management, programmability of custom apps, DI/DO, and more.
Accessories
To find information on accessories for your product, go to https://multitech.com/all-products/accessories/.