Waterproof GPS Pet Wearables Sourcing | Procurement for Long-Battery Life Tracking Collars

Introduction: The Booming Market for Waterproof GPS Pet Wearables

Waterproof GPS pet wearables sourcing has emerged as one of the fastest-growing procurement categories in the global pet technology market, driven by the explosive growth in pet ownership worldwide and the correspondingly intense desire among pet owners to keep their canine and feline companions safe. The global GPS pet tracker market is valued at over $2.5 billion in 2026 and is growing at a compound annual rate of 18-22%, making it one of the most attractive segments in the broader IoT wearables space. Procurement for long-battery life tracking collars presents unique technical challenges that distinguish this category from standard consumer electronics: the devices must survive submersion in water (pets roam in rain, streams, and oceans), withstand the constant shock and vibration of being worn by an active animal, maintain reliable cellular connectivity despite the dynamic RF environment created by a moving pet’s body, and deliver multi-day battery life from a form factor small enough to be comfortable for the animal to wear.

China’s manufacturing ecosystem has become the undisputed global leader in waterproof GPS pet wearables production, with the Shenzhen-Guangzhou manufacturing corridor supplying over 80% of the world’s GPS pet tracker products — from budget-oriented single-function tracking devices priced at $15-25 wholesale to premium multi-sensor platforms retailing for $200 or more. The combination of advanced IoT module manufacturing, mature IP68/NEMA 6P waterproof engineering expertise, and aggressive pricing has made China the default sourcing destination for pet product retailers, distributors, and brand owners worldwide. This guide provides a comprehensive procurement framework for sourcing waterproof GPS pet wearables, covering product design considerations, component selection, supplier qualification, quality assurance, regulatory compliance, and cost optimization.

Understanding Waterproof GPS Pet Wearable Technologies

Core Design Requirements for Pet GPS Trackers

The operating environment for a GPS pet tracker is uniquely demanding compared to human-worn devices or static IoT sensors:

Environmental Durability: Pets are exposed to conditions that would destroy most consumer electronics. A dog wearing a GPS tracker encounters rain, mud, seawater, pool water, dust, and sand during normal daily activities. The device must maintain full functionality after exposure to all these elements throughout its product lifespan. This demands IP68 or NEMA 6P waterproof ratings as a baseline requirement, not a premium feature. Beyond simple water resistance, the device must also withstand repeated chewing (dogs frequently lick or chew at collars), scratching against trees and furniture, and the mechanical shock of running, jumping, and playing.

Form Factor and Comfort: For a pet tracker to be practical, it must be lightweight enough for the animal to wear without discomfort. Industry guidelines suggest that a wearable device should not exceed 2-5% of the animal’s body weight. For a typical 10-25 kg medium-sized dog, this translates to a maximum device weight of 50-125 grams — and less than 40 grams for small dogs under 5 kg. The device must distribute this weight evenly across the collar attachment point and not chafe or irritate the animal’s neck during extended wear. These constraints directly conflict with the requirement for large batteries to achieve long battery life, creating the fundamental design trade-off that procurement professionals must navigate.

Battery Life Requirements: Unlike human-worn fitness trackers that are charged nightly, GPS pet trackers are expected to operate for days or even weeks between charges. This expectation reflects the practical reality that pet owners are unlikely to consistently charge a device on their dog’s collar — and a tracker with dead batteries provides zero safety value. Achieving multi-day battery life (5-14 days is the commercial sweet spot) requires careful optimization of GPS duty cycling, cellular communication intervals, and processor sleep modes.

Waterproofing Technologies and Engineering Solutions

The waterproofing engineering for GPS pet wearables represents a sophisticated application of materials science and mechanical design:

Enclosure Sealing: The primary waterproof barrier is the device enclosure, typically manufactured from ABS plastic, polycarbonate, or thermoplastic elastomer (TPE) using injection molding. The enclosure consists of two or more shells that are joined using ultrasonic welding, adhesive bonding, or screw assembly with silicone gasket seals. The quality of the sealing method directly determines long-term waterproof performance — ultrasonic welding creates a hermetic seal but is irreversible (making battery replacement impossible without destroying the enclosure), while silicone gaskets allow for battery replacement but require precise gasket placement during reassembly.

Charging Port Design: Traditional USB ports are a major waterproofing vulnerability because they create an opening in the enclosure. Modern waterproof GPS pet trackers address this through several approaches: magnetic pogo-pin charging (where metal pins in the charging cable engage with sealed contacts on the device), induction (wireless) charging (completely eliminating openings in the enclosure), or sealed USB-C ports with a silicone plug that the user removes for charging and replaces afterward. Magnetic pogo-pin charging has emerged as the dominant approach due to its balance of convenience, reliability, and waterproofing performance.

Display and Button Sealing: Any button or indicator light on the device must be sealed using silicone rubber membranes or custom-molded elastomer components that compress against the enclosure surface when the button is assembled. LED indicators are typically implemented using light pipes that transmit light from internally-mounted LEDs through the sealed enclosure wall without creating an opening.

Material Selection for Pet Environments: The enclosure material must be biocompatible (to prevent skin irritation from prolonged collar contact), resistant to the oils and acids found in dog and cat fur, UV-stable to resist degradation from sunlight exposure, and mechanically tough enough to withstand the abuse of active pets. Medical-grade silicone overmolding over a rigid plastic chassis has become a popular design approach, combining the comfort and grip of silicone with the structural strength of plastic.

Battery Technologies and Power Management Strategies

Achieving long battery life in a compact waterproof GPS pet wearable requires sophisticated power management:

Battery Chemistry: Lithium polymer (LiPo) batteries are the dominant choice for GPS pet trackers due to their high energy density (mAh per gram), thin form factor, and established manufacturing ecosystem. LiPo batteries in the 500-2,000 mAh capacity range are commonly used, depending on the device size target. For budget devices targeting small-form-factor requirements, lithium manganese dioxide (LiMnO2) coin cells are sometimes used for BLE-only tracking, but they cannot support real-time GPS tracking due to insufficient current delivery capability.

GPS Duty Cycling Strategies: The primary power consumer in a GPS pet tracker is the GPS receiver, which consumes 30-80 mA during active satellite acquisition and tracking. Conserving battery life requires minimizing GPS active time through duty cycling — alternating between short GPS fix intervals (30 seconds to 5 minutes during active tracking mode) and long sleep intervals (15-60 minutes during normal monitoring mode). Some devices implement adaptive duty cycling that automatically increases GPS update frequency when unusual movement patterns are detected, balancing safety responsiveness against battery conservation.

Cellular Communication Optimization: The cellular modem is the second-largest power consumer (10-50 mA during active transmission). Power optimization techniques include: transmitting only changed data (not redundant position reports), buffering multiple GPS fixes and transmitting in burst mode, using the lowest-power cellular network mode compatible with the application (NB-IoT vs. LTE-M vs. full 4G), and deferring non-critical data uploads until the device is in a high-signal-strength area.

Solar-Assisted Charging: A growing segment of GPS pet wearables incorporates small photovoltaic panels that provide supplemental charging, extending battery life by 20-50% in favorable outdoor conditions. Solar-assisted devices are particularly popular for hunting dogs and outdoor pets that spend extended time outside. The solar panel must be protected by scratch-resistant glass or polycarbonate and sealed against water ingress.

Low-Power Accelerometer Wake-Up: Accelerometers consume minimal power (microamps) but can detect motion events that trigger GPS activation. This enables a mode where the device is effectively in deep sleep between motion detections, waking briefly to assess whether to activate GPS tracking. This approach can extend standby battery life from days to weeks.

Key Components in GPS Pet Tracker Assembly

GNSS Module Requirements

The GPS/GNSS module is the most technically demanding component in the device:

Multi-Constellation Support: Modern GNSS modules support multiple satellite constellations (GPS, GLONASS, Galileo, BeiDou) simultaneously, improving time-to-first-fix and positioning accuracy by combining more visible satellites. For pet tracking applications in urban environments or under tree cover, multi-constellation reception significantly improves reliability. The u-blox family of GNSS modules (particularly the M10 and M9 series) has become the de facto standard for quality GPS pet trackers.

Sensitivity Specifications: GPS signal strength at ground level is extremely weak (approximately -130 dBm). The module’s sensitivity — measured in dBm — determines how well it can receive signals in challenging environments. Quality modules achieve better than -165 dBm tracking sensitivity and better than -148 dBm cold-start sensitivity. Higher (less negative) sensitivity numbers indicate better performance.

Antenna Design: The GNSS antenna is typically a ceramic patch antenna (5×5 mm to 10×10 mm) mounted on the module board. The antenna’s orientation and surrounding ground plane significantly affect performance. In waterproof pet trackers, the antenna is often positioned to maximize sky exposure despite the device’s collar-mounting orientation.

Cellular Communication Modules

For real-time tracking (as opposed to BLE-only proximity finding), cellular connectivity is essential:

NB-IoT (Narrowband IoT): This LPWAN (Low-Power Wide-Area Network) technology offers excellent penetration (useful for indoor/outdoor tracking), very low power consumption, and low module cost. However, NB-IoT is not available in all countries, has limited support for voice/SMS fallback, and has higher latency (hundreds of milliseconds to seconds per message). It is best suited for pet trackers that primarily need periodic location updates and can tolerate some delay in SOS alert delivery.

LTE-M (LTE Machine-Type Communication): Also known as eMTC, LTE-M provides higher data rates and lower latency than NB-IoT while maintaining relatively good power efficiency. It supports voice (for two-way communication features) and SMS, making it the preferred cellular technology for premium pet trackers in markets where it is available. LTE-M is widely deployed in North America, Europe, and East Asia.

4G LTE Cat 1 / Cat M1: Full-featured 4G LTE modules provide the highest bandwidth and lowest latency but consume more power and cost more than NB-IoT or LTE-M. They are used in premium pet trackers with video streaming, extensive voice communication, or frequent real-time tracking requirements.

Sensor Components

Modern GPS pet trackers incorporate multiple sensors beyond positioning:

Accelerometers and Gyroscopes: 3-axis accelerometers detect motion patterns, activity levels, and behavioral anomalies (such as excessive scratching, shaking, or lying still when the pet is normally active). Accelerometer data can also be used to optimize GPS duty cycling — the device wakes GPS only when accelerometer detects significant movement.

Temperature Sensors: Some premium devices include ambient temperature sensors that alert owners when their pet has been in extreme temperatures (both hot and cold), which can indicate dangerous conditions. Temperature monitoring is particularly valuable for pets left in vehicles.

Heart Rate or Bioimpedance Sensors: Emerging in premium devices, these sensors attempt to measure vital signs through the collar contact point. Accuracy is challenging due to motion artifacts and the difficulty of maintaining consistent skin contact with a moving animal, but several manufacturers offer basic heart rate monitoring as a differentiating feature.

LED Lights and Buzzers: Audible or visual alerts allow owners to locate their pet in low-light conditions or to provide positive reinforcement training cues. These components add minimal cost but require waterproof speaker membranes or sealed LED light pipes.

China’s GPS Pet Wearables Manufacturing Ecosystem

Leading Manufacturers and Product Categories

China’s waterproof GPS pet tracker manufacturing spans a range of complexity levels:

Manufacturer	Location	Product Focus	Price Tier	MOQ	Key Strength
Shenzhen ThinkRace	Shenzhen	GPS pet/locate devices	Mid-premium	200-500	Premium design, EU certifications
Dongguan Yws Electronics	Dongguan	Budget GPS trackers	Budget	500-1,000	Lowest cost manufacturing
Shenzhen Coban Electronics	Shenzhen	Vehicle/person/pet GPS	Budget-mid	100+	Strong GPS module integration
Huawei Ecosystem Partners	Shenzhen	Premium pet trackers	Premium	Negotiated	Brand quality, app ecosystem
Tuya Smart Pet Solutions	Various	BLE+GPS hybrid trackers	Mid-range	500+	Smart home integration
Guangzhou Jieke Technology	Guangzhou	Pet collar GPS trackers	Mid-range	300+	Pet-specific form factors
Shenzhen Aibeidiao	Shenzhen	Budget pet trackers	Budget	1,000+	High volume, low cost
Various small factories	Dongguan/Weihai	Generic GPS trackers	Budget	2,000+	Minimal customization

Design and Customization Capabilities

Chinese manufacturers offer varying degrees of design and customization:

Form Factor Customization: Custom injection molds for unique enclosure shapes typically cost $5,000-25,000 in tooling and require 2,000-5,000 unit MOQ to justify the investment. Buyers can also choose from existing enclosure designs (reducing tooling cost to zero but accepting standard appearances). Popular form factors include: capsule/hybrid (rounded rectangle), disc (circular), and tag (rectangular with rounded corners).

Firmware and App Customization: White-label firmware and companion apps are widely available from Chinese module vendors and IoT platform companies (particularly Tuya Smart and涂鸦智能). This enables rapid market entry with branded apps without requiring software development investment. Custom app development (unique UI, proprietary features) costs $30,000-100,000+ and 3-6 months of development time.

Feature Customization: Manufacturers can selectively include or exclude features based on buyer requirements: SOS button, two-way voice, LED beacon, activity monitoring, temperature sensor, heart rate monitor, bark detection, wireless charging. Each feature has BOM cost and engineering implications.

Step-by-Step Procurement Process for GPS Pet Wearables

Step 1: Define Product Specifications and Target Requirements

Before engaging suppliers, create a detailed product specification document:

Use Case Definition:

• Target pet size range (small dogs under 10 kg, medium dogs 10-25 kg, large dogs over 25 kg, cats)
• Primary use (urban daily walking, rural property monitoring, hunting/outdoor dogs, pet escape prevention)
• Owner expectations (real-time tracking vs. periodic updates, activity monitoring, health alerts)

Technical Requirements:

• Cellular technology (NB-IoT, LTE-M, 4G Cat 1, or multi-mode)
• Battery capacity target (mAh) and target battery life
• Waterproof rating (IP67 minimum, IP68 preferred)
• Weight and dimensions (with specific targets for target pet size)
• Charging method (magnetic, USB-C with plug, wireless)
• SOS button, voice communication, LED beacon requirements
• Companion app platform support (iOS, Android, or both)

Regulatory Requirements by Market:

• EU: CE marking (RED 2014/53/EU), GDPR data compliance
• USA: FCC Part 15/22/24 certification, PTCRB for carrier approval
• UK: UKCA marking equivalent to CE
• Australia: ACMA RCM compliance
• Japan: TELEC certification
• Target market determines which certifications are mandatory

Step 2: Supplier Identification and Evaluation

Evaluation Criteria:

Criterion	Weight	Assessment Method
Waterproof Engineering Capability	30%	Test reports, IP rating verification, sample testing
GPS Module Integration Quality	20%	Field testing of GPS accuracy and reliability
Cellular Certification Coverage	20%	Certifications held, target market coverage
Battery Life Performance	15%	Sample battery life testing under real conditions
App and Firmware Maturity	10%	App store ratings, feature completeness, stability
Manufacturing Capacity	5%	Production line visit, capacity verification

Sample Testing Protocol: Order a minimum of 10 samples per supplier and conduct:

1. Waterproof testing (IPX7: 1m submersion for 30 min; IPX8: per manufacturer spec)
2. GPS accuracy testing (multiple locations, various weather conditions)
3. Battery life measurement (continuous tracking test until depletion)
4. Drop test (1.5m onto concrete, multiple orientations)
5. Shake/vibration test (simulating running dog conditions)
6. Button and charging mechanism durability
7. App functionality and stability testing
8. Cellular connectivity in weak signal areas

Step 3: Negotiation and Supply Agreement

Pricing Structure:

• Prototype/sample pricing: typically 2-3x production unit pricing
• Production pricing by volume: 500 units (20-30% discount), 1,000 units (30-40%), 5,000+ units (40-55%)
• Tooling cost: separate line item, $5,000-25,000 for custom enclosure molds
• App customization: separate or included depending on arrangement

Key Contract Provisions:

• Unit pricing with volume tier definitions
• Payment terms (recommended: 30% deposit, 70% before shipment)
• Quality guarantee (AQL standards for critical vs cosmetic defects)
• IP rating verification requirement (third-party lab test report per batch)
• Tooling ownership (buyer-owned molds ensure exclusivity)
• Minimum shelf life for battery-containing products (typically 12 months)

Cost Analysis for Waterproof GPS Pet Trackers

Comprehensive Cost Breakdown

Cost Component	Budget Range	Notes
GPS Module (GNSS chip + antenna)	$2-8	Varies by sensitivity and constellation support
Cellular Module (NB-IoT/LTE-M/4G)	$3-12	LTE-M modules cost more than NB-IoT
Battery (LiPo 500-1,500 mAh)	$1.50-5	Larger batteries increase cost proportionally
Enclosure (injection molded, waterproof)	$1-4	Custom molds add tooling amortization
Assembly and Testing Labor	$1-3	Highly automated facilities reduce cost
Waterproof Sealing (gaskets, coatings)	$0.50-2	Critical quality differentiator
Sensors (accelerometer, temp)	$0.30-2	Accelerometer adds ~$0.30-1
Charging System (magnetic/wireless)	$0.50-2	Magnetic pogo-pin most common
Packaging	$0.50-1.50	Custom packaging adds cost
Total BOM Range	$10-40
Shipping (China to destination)	$0.50-2	Sea freight for bulk
Landed Cost Range	$11-43

Market Positioning Strategy

For retail pricing, GPS pet trackers typically carry 2.5-5x landed cost markup:

• Budget segment (landed $12-18): retail $35-75
• Mid-segment (landed $20-30): retail $70-120
• Premium segment (landed $35-43): retail $150-250

Case Study: Pet Product Retailer Sourcing Waterproof GPS Collars from China

Background

PetSafety US, an American pet product retailer, identified waterproof GPS pet collars as a strategic category expansion to complement their existing line of pet harnesses and accessories. They targeted the mid-premium segment ($80-120 retail) with a product offering multi-day battery life (7+ days), IP68 waterproof rating, LTE-M connectivity for the North American market, activity monitoring features, and an intuitive mobile app with strong user reviews.

The Challenge

• Need for CE and FCC certification for simultaneous EU and US market launch
• IP68 waterproof requirement with magnetic charging (previous supplier had waterproof failures)
• 7-day battery life requirement in real-world usage (not just standby)
• App with high user experience standards for competitive US market
• Relatively small initial order (1,000 units) due to market uncertainty

The Solution

PetSafety engaged a Shenzhen-based sourcing agent specializing in pet technology products. After evaluating 6 suppliers over 8 weeks, they selected a manufacturer with proven IP68 waterproof GPS tracker experience and existing FCC/IC and CE certifications.

Product Specifications Finalized:

• LTE-M cellular (AT&T/T-Mobile compatible)
• IP68 waterproof (verified to 2m depth for 60 minutes)
• 1,000 mAh LiPo battery (target: 7-10 days battery life)
• Magnetic pogo-pin charging (IP68 sealed connector)
• Dual GPS + LBS positioning
• 3-axis accelerometer for activity monitoring
• SOS button with haptic feedback
• LED beacon for low-light location
• Custom TPE overmold enclosure (non-toxic, comfortable)
• Branded app (PetSafety Connect) with Apple/Google store presence

Negotiation Outcomes:

• Unit pricing: $22.50 per unit at 1,000 units (including FCC/CE certification documentation)
• Tooling cost: $8,000 for custom TPE mold (buyer-owned after completion)
• Payment terms: 30% deposit, 70% against shipping documents
• App development: $35,000 (custom UI based on existing white-label platform)
• Timeline: 5 months from contract to first shipment

Results

• First Shipment: 1,000 units delivered on schedule, all units passed IP68 verification
• Market Launch: Product launched at $99.99 retail with 4.6/5.0 average app store rating
• Battery Life Performance: Real-world user testing confirmed 8-12 days average battery life (exceeding 7-day target)
• Warranty Claims: Less than 0.5% warranty claims in first year (well below industry average of 2-3%)
• Reorder: Reordered 3,500 units within 6 months

Key Lessons

1. Waterproof testing during sample evaluation was essential — three suppliers failed IP68 verification during independent testing, saving PetSafety from serious field quality issues
2. The sourcing agent’s relationships enabled a 1,000-unit MOQ when factories were initially requesting 2,500+ minimums
3. Negotiating buyer-owned tooling was critical — the custom TPE mold gave PetSafety exclusive design control and prevented the factory from selling the same design to competitors
4. Building app customization into the sourcing agreement (rather than as a separate contract) simplified project management and accountability

Regulatory Compliance for GPS Pet Trackers

Radio Equipment Compliance

GPS pet trackers with cellular connectivity are radio equipment and require compliance with applicable radio regulations:

European Union (CE marking):

• Radio Equipment Directive (RED) 2014/53/EU: Tests RF spectrum efficiency, EMC, electrical safety, and SAR
• For cellular trackers: compliance with relevant harmonized standards for the cellular bands used
• SAR testing for body-worn devices (the collar attachment is continuous body contact)

United States (FCC):

• FCC Part 15B: Unintentional emissions (digital device)
• FCC Part 22/24: Cellular transmitter compliance
• FCC Part 2: General equipment requirements
• TCB (Telecommunications Certification Body) certification required

Canada (ISED):

• Similar to FCC requirements under Innovation, Science and Economic Development Canada (ISED)

Japan (TELEC):

• Radio Law compliance testing required for cellular and Bluetooth functionality

Product Safety Standards

• UL 62368-1 (audio/IT equipment safety) or IEC 62368-1
• UN38.3: Battery transport safety testing (mandatory for lithium battery shipping)
• REACH/RoHS: Chemical substance restrictions (EU market)

FAQ: Waterproof GPS Pet Wearables Sourcing

Q1: What is the minimum battery life I should require for a GPS pet tracker?

For commercial viability, 5-7 days minimum battery life is the practical threshold. Pet owners who are accustomed to charging their phones daily will not consistently charge a collar device, and a tracker with 1-2 day battery life will frequently be dead when needed most. 7-14 days is the current commercial sweet spot. Devices claiming longer battery life should be verified through real-world testing, as manufacturer claims often assume optimal conditions (good GPS signal, minimal cellular communication, infrequent use of power-intensive features like LED beacon or voice).

Q2: How can I verify IP68 waterproof performance during sourcing?

Request the IP rating test report from an accredited third-party laboratory (SGS, TUV, Bureau Veritas, Intertek). The report should specify the exact test conditions (depth, duration, temperature) and pass/fail criteria. Independently verify the test report matches the claimed IP rating. Then perform your own validation testing: submerge samples in water at the claimed depth for the claimed duration, then immediately test functionality including the charging system, buttons, and GPS. Water can enter through microscopic defects that may not cause immediate failure but will cause degradation over time.

Q3: What cellular technology should I specify for GPS pet trackers?

For North American market: LTE-M (preferred) or 4G Cat 1. LTE-M offers the best balance of power efficiency, voice support, and coverage. For European market: LTE-M or NB-IoT (depending on voice feature requirement). For emerging markets: NB-IoT is most cost-effective if available. Multi-mode modules that support multiple technologies provide flexibility but cost 20-40% more than single-mode modules.

Q4: What are realistic MOQs for custom GPS pet tracker designs?

For custom enclosure molds: 2,000-5,000 units typical MOQ (tooling amortization requirement). For standard enclosures with logo/color customization: 500-1,000 units typically achievable. For existing white-label products with minimal customization: 100-500 units sometimes available. A sourcing agent can often negotiate lower MOQs from factories for promising new customers with credible volume forecasts.

Q5: How do I evaluate companion app quality?

Download and extensively test the companion app across multiple OS versions and device models. Key evaluation criteria: registration and onboarding flow, real-time location display and accuracy, geofencing setup and alert reliability, battery consumption impact on phone, offline behavior when connectivity is lost, notification delivery reliability, user accessibility features, and app store ratings and review trends. Poor app quality can undermine otherwise excellent hardware.

Q6: What should I budget for certifications when sourcing GPS pet trackers?

Budget $15,000-40,000 for certifications covering one primary market (EU CE, US FCC, or equivalent). Adding additional markets typically adds $8,000-20,000 per market. These costs are amortized over production volume — for 10,000 units, certification cost adds $1.50-4.00 per unit to landed cost.

Conclusion: Building a Strong Supply Chain for Waterproof GPS Pet Wearables

Waterproof GPS pet wearables sourcing represents a compelling opportunity in the growing pet technology market, combining the benefits of China’s world-class manufacturing capabilities with strong consumer demand for products that keep pets safe. Success in this category requires balancing multiple technical requirements — waterproofing, battery life, form factor, cellular connectivity — within the cost constraints of a competitive retail market.

By following a disciplined procurement approach — starting with precise product requirements, rigorously evaluating supplier waterproof engineering capabilities, conducting thorough sample testing, negotiating protective contracts with buyer-owned tooling, and ensuring complete regulatory certification coverage — distributors and retailers can build supply chains that deliver reliable, commercially successful products to pet owners worldwide. The combination of China’s manufacturing excellence and rigorous quality management positions well-prepared buyers to capture significant market share in the rapidly expanding GPS pet tracker category.

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