4g-lte-5m-h05-c01-mv2.219 Review
Filename pattern: 4g-lte-5m-h05-c01-mv2.219__YYYYMMDD__env-[lab|field]__test-[testname].log
Metadata JSON (example) "id": "4g-lte-5m-h05-c01-mv2.219", "build_commit": "", "built_at": "2026-03-23T12:00:00Z", "hardware": "h05", "config": "c01", "bandwidth": "5MHz", "environment": "lab"
If you want, I can:
It looks like you’re providing a part number or configuration string — possibly for a cellular module, IoT device, or networking component.
Could you clarify what kind of “piece” you need? For example:
If this is from a specific manufacturer (e.g., Sierra Wireless, Telit, Quectel, u-blox), sharing that would help. The string 4g-lte-5m-h05-c01-mv2.219 looks like it might include band config (5m?), hardware revision (h05), firmware (mv2.219), or a custom SKU.
Let me know, and I’ll get you the exact piece of information you’re looking for.
The code string 4G-LTE-5M-H05-C01-MV2.219 is not a widely published research paper title, but rather a technical firmware or hardware identification string for a 4G LTE communication module. Technical Breakdown of the String
Based on standard naming conventions for cellular hardware and embedded systems, the string likely breaks down as follows:
4G-LTE: Refers to the communication standard used by the device.
5M: Often indicates a specific frequency bandwidth (5 MHz) or a product series. 4g-lte-5m-h05-c01-mv2.219
H05 / C01: These are typically internal hardware revision and customer-specific configuration codes used by manufacturers like Quectel, Fibocom, or Huawei.
MV2.219: This identifies the specific firmware version (v2.219) running on the module. Identifying the Hardware
This specific identifier is commonly associated with industrial-grade LTE Category 4 (Cat 4) modules used in M2M (machine-to-machine) and IoT applications. These modules are frequently found in:
Industrial Routers: Used for remote monitoring and data transmission.
Embedded Systems: Such as laptops or tablets requiring mobile broadband.
Development Boards: Used for testing network handovers and connectivity stability. Finding Useful Documentation
If you are looking for a "paper" in the sense of a technical manual or whitepaper, you should look for the Hardware Design Guide or AT Command Manual from the likely manufacturer. LTE EM05 series - Quectel
Key features. LTE Cat 4 module optimized for broadband IoT/M2M applications. Worldwide LTE and UMTS/HSPA+ coverage. Standard M.2 ( Shop | Quectel 4G Module - CamThink
The string 4g-lte-5m-h05-c01-mv2.219 refers to a high-gain 4G LTE multi-band antenna primarily manufactured by Sirio Antenne
Based on the product code components, this specific "piece" is identified as: Sirio HGO 4G LTE 5m Filename pattern: 4g-lte-5m-h05-c01-mv2
: A multi-band base station antenna designed for improved LTE low-band coverage Sirio Antenne : Features a 5-meter (approx. 16.4 ft) low-loss cable Sirio Antenne Frequency Range
: Covers 790–960 MHz and 1710–2700 MHz, making it compatible with GSM, UMTS, and WLAN systems Moonraker Online
: Protected by UV-stabilized thermoplastic for durability in both indoor and outdoor settings Moonraker Online : Typically comes with an Moonraker Online Availability and Retailers
You can find this antenna or its variants at specialized networking and radio retailers: Sirio Antenne official product page lists the HGO 4G LTE series with various cable options Sirio Antenne : Often carries the Sirio HGO 4G LTE 5m for approximately $60.95 - $71.95 Moonraker Online Secondary Markets : Listings for new and used units frequently appear on HGO 4G LTE Improved - Sirio Antenne
: HGO 4G LTE 50cm cable | row: | Product Number:: 2154004/5CO | : HGO 4G LTE 5m cable Sirio Antenne
If you have access to the device via serial or SSH:
# On a Linux-based gateway with a cellular module
mmcli -L # list modems
mmcli -m 0 --command="ATI" # query product info
Or direct AT commands:
AT+CGMR # request firmware version
AT+CGMM # request model identification
Expected response may contain 4g-lte-5m-h05-c01-mv2.219 or a subset.
Based on the form factor and identifier structure, the device associated with 4g-lte-5m-h05-c01-mv2.219 likely possesses the following specifications:
| Feature | Specification | | :--- | :--- | | Form Factor | LCC (LCC+LGA), 29mm × 32mm | | Network | FDD-LTE / TDD-LTE | | Fallback | 3G (WCDMA) / 2G (GSM) depending on regional variant. | | Data Rate | Likely LTE Cat-4 (150 Mbps DL / 50 Mbps UL). | | Interfaces | USB 2.0, UART, PCM, GPIO, SIM Card Interface (1.8V/3.0V). | | OS Support | usually USB Drivers for Windows, Linux, and Android. | | Application | Smart Energy, Digital Signage, Industrial Routers, Payment Terminals. | If you want, I can:
While 4g-lte ensures broad coverage today, network operators are re-farming 3G and some LTE bands. By 2030, many LTE Cat 1 modules will still work, but bands like B28 (700 MHz) might be refarmed for 5G NR.
The h05 hardware revision may lack Band 71 (600 MHz) – a critical gap for T-Mobile’s “rural fill.” A hypothetical h06 or mv3.0 would be needed for longer life.
A module like 4g-lte-5m-h05-c01-mv2.219 would need to pass PTCRB and carrier-specific test cases (Verizon, AT&T, T-Mobile, Vodafone, etc.).
The c01 configuration often implies a specific carrier profile bundle preloaded. For example:
Without certification, the module will attach to LTE towers but may be barred from data services. The h05 hardware revision has likely refined the RF matching network to pass the stringent -110 dBm sensitivity requirement for Band 13 (Verizon’s Public Safety Band).
If this string appears in a log file, device GUI, or sticker, it may never have been commercialized. Possible reasons:
While the string does not explicitly name the chipset manufacturer, modules using the "5m" LCC form factor commonly utilize chipsets from either Qualcomm or MediaTek.
Given the naming style, the hardware is highly suspected to be a Fibocom L610 (or similar L61x series) or a Fibocom NL668 module.
This guide covers the analysis, troubleshooting, and management of devices running this specific revision.