OEM/ODM
Vibrator Manufacturing: How Dual-Motor Devices Are Made and What to Specify
Β· Evokomoribi Perspectivas de FabricaciΓ³n
TL;DR
A technical manufacturing guide for B2B buyers sourcing dual-motor vibrators from China. Covers the three motor types (N20 coreless DC, coin ERM, LRA), the full specification brief you need to give a factory, key performance benchmarks (noise under 50 dB, IPX7, 800β1200 mAh battery), and the 4-stage quality control process that separates reliable manufacturers from risky ones.
Quick Answer
A dual-motor vibrator uses two independently controlled motors β one for internal G-spot stimulation and one for external clitoral stimulation β allowing different vibration frequencies and patterns on each axis simultaneously. The three motor types used in manufacturing are: N20 coreless DC (quiet, 45β55 dB, best for premium positioning), coin ERM (strong vibration, space-efficient, lower cost), and LRA linear resonant actuator (precise haptics, very quiet, highest cost). To brief a factory correctly, buyers must specify motor model numbers, target frequency range (Hz), noise level ceiling at 30 cm, number of vibration modes, app control requirements, battery capacity in mAh, IPX rating, and material grades. Sample approval should include a 10-minute motor endurance run, dB measurement at 30 cm, and charge/run time verification.
Why Dual-Motor Design Commands a Price Premium
Single-motor vibrators use one motor to drive the entire device β both internal and external stimulation come from the same vibration source transmitted through the silicone body. Dual-motor devices use two separate, independently programmable motors, each with its own PCB control channel. This allows:
- Simultaneous independent control: Motor 1 (internal, G-spot shaft) can run at 80 Hz while Motor 2 (external, clitoral arm) runs at 120 Hz, or in a counter-rhythm pattern
- Independent intensity levels: Each motor has its own power input, so internal and external intensity can be adjusted separately
- Combination mode patterns: 10+ vibration patterns become possible because each motor contributes its own pattern sequence, and the patterns can be synchronised, alternated, or run in opposition
For retail positioning, dual-motor = premium. Average retail price premium over single-motor equivalents: 35β60% in EU markets, 25β45% in US markets. For private label brands competing in the mid-to-premium segment, dual-motor is now the baseline specification β single-motor products are increasingly confined to entry-level price points.
For manufacturers, dual-motor increases PCB complexity, requires two motor housing cavities in the mold, and approximately doubles the motor component cost. This is why dual-motor MOQs are typically 300β500 units minimum, versus 100β200 units for single-motor catalog products.
Motor Type Comparison
The three motor technologies used in dual-motor adult wellness devices differ significantly in vibration character, noise output, physical size, and unit cost.
N20 Coreless DC Motor
The N20 coreless DC motor is the industry standard for premium dual-motor devices. "Coreless" refers to the motor winding design β unlike conventional brush DC motors, the armature has no iron core, which eliminates cogging torque and produces smoother, more consistent vibration across the frequency range.
Performance characteristics
- Frequency range: 80β180 Hz (adjustable via PWM duty cycle on the PCB)
- Noise output: 45β55 dB at 30 cm in a quiet room (target for premium positioning: under 50 dB)
- Vibration character: smooth, rumbly, penetrating β preferred for internal stimulation
- Physical size: 10β12 mm diameter, 20β35 mm length (fits in most rabbit vibrator shaft geometries)
Use case: Motor 1 (internal shaft) in premium dual-motor rabbit vibrators. Preferred by European and North American retail buyers for premium category positioning.
Coin Vibration ERM (Eccentric Rotating Mass)
Coin ERMs use an off-center weight attached to a DC motor shaft. As the motor spins, the eccentric mass creates vibration perpendicular to the motor axis. Coin ERMs are flat and wide, which makes them ideal for the narrow clitoral arm geometry of rabbit-style vibrators.
Performance characteristics
- Frequency range: 60β150 Hz (limited adjustability; speed is the primary control variable)
- Noise output: 55β70 dB at 30 cm β louder than N20 coreless
- Vibration character: buzzier, surface-level β preferred for clitoral external stimulation
- Physical size: 8β12 mm diameter, 2β4 mm thickness (very flat, fits arm tip geometry)
Use case: Motor 2 (external clitoral arm) in the majority of mid-range dual-motor rabbit vibrators. Lower unit cost makes it attractive for mid-market price points.
LRA (Linear Resonant Actuator)
LRAs use an electromagnet to drive a mass back and forth linearly, rather than rotating. Originally developed for smartphone haptics (used in iPhone and Samsung flagship devices), LRAs have been adopted in premium adult wellness devices for their precision and near-silent operation.
Performance characteristics
- Frequency range: Very narrow β most LRAs operate at a single resonant frequency (typically 150β200 Hz). Intensity is adjusted, not frequency
- Noise output: under 40 dB at 30 cm β quietest motor type available
- Vibration character: sharp, precise, high-frequency β excellent for clitoral stimulation
- Physical size: various form factors; typically 8β14 mm diameter
Use case: Premium external stimulation arm in luxury-tier dual-motor devices. High unit cost (3β5Γ ERM cost) limits use to products targeting EUR 80+ retail price points.
Key Specifications Comparison Table
| Specification | N20 Coreless DC | Coin ERM | LRA |
|---|---|---|---|
| Frequency Range | 80β180 Hz | 60β150 Hz | Fixed resonant (~175 Hz) |
| Noise at 30 cm | 45β55 dB | 55β70 dB | <40 dB |
| Vibration Type | Rumbly, deep | Buzzy, surface | Sharp, precise |
| Typical Placement | Internal shaft | External arm | External arm (premium) |
| Relative Unit Cost | Medium | Low | High |
| Best Market Position | Mid to premium | Entry to mid | Luxury |
| App Control Support | Yes (PWM) | Limited | Yes |
Standard Dual-Motor Device Specifications
The following table shows the benchmark specifications Evokomoribi delivers as standard for dual-motor rabbit vibrators at mid-to-premium OEM positioning:
| Parameter | Standard Spec | Premium Spec |
|---|---|---|
| Internal motor | N20 coreless DC | N20 coreless DC |
| External motor | Coin ERM | LRA |
| Vibration modes | 10 patterns | 12+ patterns |
| Noise level | <55 dB at 30 cm | <50 dB at 30 cm |
| Waterproof rating | IPX5 | IPX7 |
| Battery capacity | 800 mAh | 1200 mAh |
| Working time | 1.5 hours | 2.5 hours |
| Charging | USB magnetic | USB magnetic |
| Standby retention | 60+ days | 90+ days |
| Silicone grade | Food-grade | Medical-grade |
| Certifications | CE, RoHS | CE, RoHS, FCC |
| MOQ | 500 units | 300 units |
How to Brief a Factory: The Full Specification List
A factory needs a complete written specification brief before they can quote accurately or produce a correct sample. Incomplete briefs result in samples that look right but perform incorrectly β causing revision rounds that add cost and delay.
Motor specification
- Motor type for Motor 1 (internal): specify N20 coreless DC or equivalent; include target vibration frequency range in Hz at full power
- Motor type for Motor 2 (external): specify coin ERM or LRA; include target vibration frequency or speed range
- Noise ceiling: specify maximum dB at 30 cm for each motor independently (standard target: Motor 1 under 55 dB, Motor 2 under 65 dB; premium target: both under 50 dB)
Vibration modes and control
- Number of vibration patterns: specify minimum count (standard: 10; premium: 12β15)
- Independent control: confirm whether Motor 1 and Motor 2 should be independently controllable (required for quality positioning)
- Escalation mode: confirm whether a mode exists that ramps both motors simultaneously from low to maximum intensity
- App control: if Bluetooth app control is required, specify whether you are providing a white-label app or require the factory's existing app platform; confirm iOS and Android compatibility requirements
Power and battery
- Battery capacity: specify mAh (standard: 800 mAh; premium: 1200 mAh)
- Charging interface: USB magnetic pin is standard; specify whether USB-C is required (adds cost but increasingly expected in EU market)
- Target working time at medium power: specify hours (standard: 1.5 hours; premium: 2.5 hours)
- Charge time: specify maximum acceptable charge time (standard: 2 hours; premium: 1.5 hours)
Materials and safety
- External silicone: specify food-grade or medical-grade; confirm phthalate-free and BPA-free requirements
- ABS housing colour and finish: specify RAL or Pantone reference for colour; specify matte or gloss finish
- Silicone Shore hardness: specify durometer (standard: Shore A 20β30; premium soft: Shore A 10β15)
Waterproofing
- IPX rating: specify IPX5 (splash resistant) or IPX7 (submersible 1 m / 30 min); IPX7 adds cost and requires sealed charging port design
Certifications required
- CE (mandatory for EU)
- RoHS (mandatory for EU)
- FCC (required for US Bluetooth models)
- Specify which markets the product is intended for so the factory can prepare the correct certification package
The 4-Stage Quality Control Process
Reliable dual-motor manufacturers run quality control at four stages. Understanding this process helps buyers set correct expectations and write appropriate QC requirements into their purchase orders.
Stage 1 β IQC (Incoming Quality Control)
Incoming components β motors, PCBs, silicone parts, ABS housings, cables β are inspected on arrival from component suppliers before entering production. IQC for motors includes batch vibration frequency testing (sample of 5% of incoming batch), noise measurement, and dimensional check for fit tolerance against mold specification. Silicone components are checked for Shore hardness compliance and surface defects.
At Evokomoribi, IQC failure triggers a supplier non-conformance report and component quarantine. Buyer-facing impact: a batch of out-of-spec motors caught at IQC delays production start but prevents the noise or performance defect from appearing in the finished goods.
Stage 2 β IPQC (In-Process Quality Control)
IPQC inspection points are inserted at key manufacturing stages: after motor installation (vibration verification before enclosure), after silicone overmolding (visual inspection for bubbles or uneven coverage), and after PCB installation (full function test of all modes before final assembly). Approximately 10β20% of units in production are spot-checked at each IPQC stage.
Stage 3 β FQC (Final Quality Control)
100% of finished units go through FQC. The FQC checklist for dual-motor devices includes:
- IPX test: each unit is submerged or sprayed per the rated IPX level, then function-tested
- Motor endurance run: all modes cycled for 5 minutes; noise measured in a quiet test booth at 30 cm
- Charge and discharge cycle: unit charged to full, then run at medium power until battery flat; time recorded and compared against specification
- Surface finish inspection: silicone surface checked for contamination, bubbles, uneven texture
- Button and control check: all buttons pressed minimum 10 times; all mode transitions verified
Stage 4 β OQC (Outgoing Quality Control)
Before shipment, a random AQL 2.5 sampling is performed on the finished, packaged order. OQC inspects carton labeling, product labeling (CE mark, WEEE symbol, model number, charging cable inclusion), and performs a functional check on the sample. The OQC report is included with the shipment documentation.
Sample Approval Checklist
Before approving a bulk production run, buyers should run the following checks on the factory sample:
Motor performance
- Run all vibration modes for 10 consecutive minutes (confirms motor temperature stability under sustained load)
- Measure noise output at 30 cm with a calibrated sound level meter for each motor independently at maximum power (target: below specification ceiling)
- Confirm all pattern sequences match the agreed specification (count the modes; verify escalation and alternating patterns)
Battery and charging
- Charge from flat to full: record actual charge time and compare to specification
- Run at medium power until battery flat: record actual run time and compare to specification
- Confirm charging indicator LED activates correctly during charge and changes on completion
Waterproof verification
- For IPX5: direct water jet from all angles for 15 minutes; function-test immediately after
- For IPX7: submerge at 1 m for 30 minutes; function-test immediately after and again after 24 hours
Materials check
- Confirm silicone hardness matches specification (use Shore durometer if available)
- Confirm silicone colour matches approved Pantone reference under natural light
- Inspect charging port seal and button seal for visible gaps or misalignment
Packaging and compliance
- Confirm CE mark is printed on product and outer packaging
- Confirm WEEE symbol is present on packaging
- Confirm model number, voltage, and manufacturer information matches agreed labeling specification
6-Step OEM/ODM Process at Evokomoribi
Every dual-motor OEM project at Evokomoribi follows a structured 6-step process designed to minimise revision rounds and deliver first-production compliance documentation.
Step 1 β Requirement: Share your target market, retail price point, estimated annual volume, and any reference products. Evokomoribi provides a product direction recommendation within 24 hours.
Step 2 β Specification: The engineering team produces a written specification document covering motor selection, PCB design, vibration mode list, battery, materials, waterproofing, and certification requirements. Buyer reviews and signs off before sampling begins.
Step 3 β Prototype: Sample unit produced from specification. Typical lead time: 7β15 business days. Sample includes full FQC inspection report and motor test data.
Step 4 β Verification: Buyer tests sample against the approval checklist above. Written revision requests are submitted; up to 3 revision rounds are included at no extra charge.
Step 5 β Production: Mass production begins after written sample approval and deposit payment (standard: 30% deposit). IPQC reports are shared weekly during production. Production lead time: 25β35 days for 500β2,000 units.
Step 6 β Delivery: Pre-shipment inspection (OQC AQL 2.5) completed and report shared before balance payment. Full compliance documentation package issued with shipment. DDP, FOB, and CIF incoterms available.
Why the Right Motor Specification Protects Your Brand
Motor specification is the most common place where B2B buyers lose value on dual-motor OEM projects. Factories that do not receive a precise motor specification will default to whatever motor is cheapest and most available at production time β which may be a different model number than what was sampled, with different noise characteristics.
The key protective clause in any dual-motor OEM purchase order: specify the motor model number (e.g., "N20-3V coreless DC, 180 rpmΒ±10% at 3V") as a named component, not just a functional description. If the factory changes the motor model, they must notify the buyer and provide a new noise test report before proceeding. This single clause prevents the most common quality degradation scenario in repeat dual-motor orders.
Evokomoribi locks motor specifications by model number in the purchase order and maintains a component specification register for each OEM client. Repeat orders use the same component register unless the buyer requests a specification change.
Preguntas Relacionadas
What is the difference between OEM and ODM in adult wellness manufacturing?
ODM (Original Design Manufacturer) means you sell a product the factory already designed and manufactured β you apply your branding but own no IP. OEM (Original Equipment Manufacturer) means you own the product specification, the mould, and all industrial design IP; the factory manufactures to your brief. In practice, most brands start with ODM to validate demand, then invest in OEM once a SKU generates 200+ units per month. The key distinction is IP ownership: ODM gives you none; OEM gives you full exclusivity. A third path β Co-Innovation β involves joint design with a shared-IP agreement, suitable for brands with engineering capability and a long-term factory partnership.
When should I choose ODM over OEM for my adult wellness brand?
Choose ODM when you are launching a first product with unproven demand, are working with a budget under USD 10,000, need to be on sale within 12 weeks, or cannot manage a 6β12 month product development cycle. Choose OEM when a catalog SKU generates 200+ units per month and you need design exclusivity to defend your market position, when competitors are easily replicating your differentiation, or when your brand identity requires a product shape that does not exist in any factory catalogue. The financial threshold: custom mould tooling costs USD 3,000β8,000 plus a 12β20 week development cycle β this investment is justified once the ODM baseline proves sustained demand.
How much does OEM tooling cost for a custom adult wellness product?
Tooling cost depends on mould complexity. A minor mould modification (colour, texture, logo cavity) to an existing factory tool costs USD 500β1,500. A new factory-designed mould built on your brief costs USD 2,000β5,000 with a 6β10 week development cycle. A buyer-designed mould (your CAD files, your geometry) costs USD 4,000β8,000 with a 12β20 week cycle. A custom PCB plus new mould (proprietary motor configuration or control system) costs USD 6,000β15,000+ with an 18β30 week cycle. All tooling is owned by the buyer and should be contractually recorded as buyer property at the factory β state this in the purchase order before tooling payment is made.
What IP protections should I put in place before starting an OEM project?
Four minimum protections: (1) NDA with specific product confidentiality clauses β sign before sharing any sketch, brief, or 3D file; (2) Tooling ownership clause in the purchase order explicitly stating that all moulds, PCB designs, and firmware are buyer property β include a right to transfer tooling to another factory on 30-day notice; (3) Non-compete clause prohibiting the factory from selling your product geometry or motor configuration to other buyers for at least 24 months; (4) Design registration in your target market β EU Registered Community Design (RCD) costs approximately EUR 350, US Design Patent approximately USD 1,500β3,000 including attorney fees. File design protection before launch, not after β once a design is publicly sold, prior art limits your registration options.
ΒΏListo para comenzar su proyecto?
Comparta su mercado objetivo, cantidad estimada y direcciΓ³n del producto con Evokomoribi para recibir una cotizaciΓ³n B2B en 24 horas.
Consulta y CotizaciΓ³n Gratuita β