$1.2M Oncology Center Remodel in Arlington Needs 7 Low Voltage Systems
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A $1.24 million oncology center remodel in Arlington, Texas requires seven low voltage systems — from fire alarm and DAS to nurse call and specialized medical equipment wiring. The estimated low voltage contract value is approximately $124,000.
$1.24 million oncology center remodel in Arlington, TX requires 7 low voltage systems, creating an estimated $124,000 opportunity for contractors in the Texas market.
Project Overview
A significant healthcare renovation is underway in Arlington, Texas. Permit records filed with the City of Arlington show a $1.24 million remodel of a radiation therapy facility at 515 West Mayfield Road — home to Texas Oncology's Arlington South location. The project centers on upgrades to the facility's LINAC (linear accelerator) equipment, which is used to deliver targeted radiation treatments to cancer patients.
LINAC facility remodels are among the most infrastructure-intensive projects in healthcare construction. Beyond the shielded treatment vaults and specialized power requirements, these facilities demand comprehensive low voltage systems to support patient monitoring, safety interlocks, communication, and building security. The $1.24 million project value reflects the scope of mechanical, electrical, and plumbing (M.E.P.) upgrades required to modernize this critical treatment environment.
The facility sits on the campus of the Medical Center of Arlington, at the northeast corner of Mayfield Road and West Matlock Road. This medical corridor serves as a hub for specialized healthcare services in the Dallas-Fort Worth metroplex, making it a high-activity zone for construction and renovation contractors.
| Project | Oncology Center Remodel - 515 W Mayfield Rd |
| Location | 515 W Mayfield Road 101, Arlington, TX |
| Total Value | $1,240,000 |
| Project Type | Hospital / Healthcare |
| Status | Active |
| LV Score | 10/10 |
| Source | Arlington TX Issued Permits |
Project Context
The facility at 515 West Mayfield Road is operated by Texas Oncology, one of the largest community-based oncology practices in the United States. Texas Oncology operates more than 220 locations across Texas and is part of the US Oncology Network, which is supported by McKesson Corporation.
This Arlington South remodel is part of a broader pattern of facility investments by Texas Oncology. In 2025, the organization broke ground on a $120 million flagship facility in Plano, a 100,000-square-foot comprehensive cancer care center scheduled for completion in December 2026. That project, in partnership with McCarthy Construction and Cottonwood Development Partners, signals Texas Oncology's commitment to modernizing its physical infrastructure across the state.
While the Arlington remodel is far smaller in scale, it follows the same trajectory: upgrading treatment capabilities with modern infrastructure. For low voltage contractors in the DFW area, Texas Oncology's ongoing investment cycle represents a steady pipeline of healthcare renovation work — from radiation therapy upgrades to new outpatient facilities.
| Role | Organization | Details |
|---|---|---|
| Occupant / Operator | Texas Oncology | 220+ locations across Texas, part of US Oncology Network |
| Parent Network | US Oncology Network | Largest community oncology network in the US, backed by McKesson |
| General Contractor | Not publicly identified | Permit records do not specify the GC for this remodel |
Low Voltage Systems Breakdown
This oncology center remodel requires seven distinct low voltage systems spanning life safety, security, communications, and specialized medical infrastructure. The breadth of systems for a single-facility remodel is notable — a perfect 10/10 LV opportunity score reflects both the system count and the healthcare-specific complexity involved.
| System | Category | Scope Description | Complexity |
|---|---|---|---|
| Fire Alarm | Life Safety | Complete fire alarm system for a radiation therapy facility. Requires coordination with shielded treatment vaults and specialized detection in areas with high-power medical equipment. Must comply with NFPA 72 and local AHJ requirements, with particular attention to notification appliance placement around LINAC rooms. | High |
| Structured Cabling | Data/Voice | Network backbone for the facility's medical imaging systems, electronic health records, treatment planning computers, and administrative functions. LINAC facilities generate large imaging files requiring high-bandwidth connectivity. Expect Cat6A or fiber runs to treatment planning workstations. | Medium-High |
| Access Control | Security | Controlled access to radiation treatment areas is critical for patient and staff safety. Card readers, electromagnetic locks, and interlocks on treatment vault doors ensure only authorized personnel enter active radiation zones. Integration with the facility's safety interlock system is essential. | High |
| CCTV / Video Surveillance | Security | Surveillance coverage of treatment areas for patient monitoring during radiation delivery, waiting rooms, corridors, and the facility exterior. Cameras in treatment rooms must withstand electromagnetic interference from LINAC equipment. IP-based system with PoE infrastructure. | Medium-High |
| Nurse Call | Life Safety | Patient communication system for treatment rooms, prep areas, and recovery spaces. In a radiation therapy setting, nurse call stations are the primary communication link between patients inside treatment vaults and staff at the control console. Requires reliable, interference-resistant operation. | Medium |
| DAS (Distributed Antenna System) | Wireless | Cellular signal distribution throughout the facility. Medical buildings with heavily shielded treatment vaults and dense construction often have poor cellular coverage. A DAS ensures reliable communication for staff, patients, and emergency services throughout the building. | High |
| Medical Equipment Wiring | Specialty | Specialized low voltage wiring for LINAC equipment interfaces, treatment planning systems, and medical device connectivity. Includes data connections between the linear accelerator, multileaf collimator controls, imaging systems, and the treatment planning network. Requires strict adherence to manufacturer specifications and EMI shielding requirements. | Very High |
Estimated Low Voltage Value
Based on industry benchmarks for hospital and healthcare construction, the estimated low voltage contract value for this project is approximately $124,000. This calculation uses a healthcare-specific LV percentage at the high end of the range, reflecting the complexity of a radiation therapy facility with seven integrated systems.
| Total Project Value | $1,240,000 |
| Estimated LV Percentage | 8% (Hospital/Medical, high end) |
| System Count Multiplier | 1.25x (7 systems) |
| Estimated LV Contract Value | $124,000 |
While $124,000 may seem modest compared to ground-up hospital construction, this is a concentrated scope within a single facility. For a mid-size LV contractor or specialty healthcare integrator in the DFW market, this represents a well-defined project with clear boundaries and minimal competitive overlap — the kind of targeted opportunity that builds a healthcare portfolio.
The medical equipment wiring component alone could represent 15-20% of the LV budget, given the specialized nature of LINAC connectivity. Fire alarm and DAS typically command the next largest shares in healthcare renovations, followed by structured cabling and security systems.
Skills and Certifications Required
This project's seven LV systems span multiple disciplines, with a strong emphasis on healthcare-specific expertise. Contractors bidding on this work need teams with both general low voltage competence and specialized medical facility experience.
| System | Key Certifications | Critical Skills |
|---|---|---|
| Fire Alarm | NICET Level II+, State FA License | NFPA 72, SLC/NAC wiring, AHJ coordination |
| Structured Cabling | BICSI INST2, RCDD (design) | Cat6A termination, fiber splicing, Fluke testing |
| Access Control | PSP (ASIS), Manufacturer certs | Door hardware, IP networking, interlock integration |
| CCTV | Manufacturer certs (Axis/Avigilon) | PoE networking, EMI-resistant camera placement, VMS config |
| Nurse Call | Manufacturer certs (Hill-Rom/Rauland) | Healthcare protocols, patient room wiring, system integration |
| DAS | BICSI RCDD, RF engineering | Antenna placement, carrier coordination, signal testing |
| Medical Equipment Wiring | Manufacturer-specific training, BICSI | LINAC interface wiring, EMI shielding, medical device protocols |
Entry-level technicians with BICSI Installer 1 or NICET Level I can contribute to cable pulling, device mounting, and basic terminations throughout the facility. Mid-level techs with NICET Level II or BICSI INSTC will handle fire alarm circuit wiring and cabling system testing. The DAS installation and medical equipment wiring will require senior technicians with RF engineering experience and LINAC manufacturer training, respectively.
Contractors should verify their Texas low voltage contractor license is current. Texas requires a state license for alarm and fire alarm system installation, and contractors working in healthcare settings may face additional credentialing requirements from the facility operator.
Market Signal
This oncology center remodel is a microcosm of a much larger trend in the Dallas-Fort Worth healthcare construction market. Texas Oncology's $120 million flagship project in Plano is the headline, but the organization's network of 220+ facilities means a constant stream of smaller renovations, equipment upgrades, and facility modernizations across the state.
The DFW metroplex is one of the fastest-growing healthcare markets in the country. Arlington alone sits between Dallas and Fort Worth with a population exceeding 400,000, and its medical corridor around the Medical Center of Arlington continues to expand. For low voltage contractors, the healthcare vertical in this region offers both large-scale new construction and a steady flow of renovation projects like this one.
Radiation therapy facility remodels are particularly notable for LV contractors because they are equipment-driven: when a hospital upgrades a LINAC, the entire room's infrastructure must be updated. That means new cabling, new monitoring systems, updated fire protection, and refreshed security — a comprehensive LV scope even on a modest total project budget. As LINAC technology continues to advance, expect more of these targeted renovations across cancer treatment centers nationwide.
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