Part Datasheet Review and Validation

Yes, adjust the symbol pin positions, verify readability, and rerun the part review.
I’ll space the antenna symbol pins into a readable layout, then verify the symbol metadata and rerun the part review checks.
Adjusted the symbol pin positions for readability: pin 1 RF Feed is on the left, and GND pins 2–9 are vertically spaced on the right with right-facing orientation. I verified the updated terminal metadata and reran the part review; no Component Review Check issues are currently reported.
Open items:
  • The flat schematic renderer returned no visible component preview, so verification was based on the stored symbol pin coordinates/properties.
Suggested next steps:
  1. Visually inspect the symbol in the editor.
  2. Confirm footprint pad geometry and RF keepout against the Taoglas datasheet.
  3. Publish/update the part if the visual symbol and footprint look correct.
Verify footprint and review
Check footprint geometry
Add RF keepout notes
Run full review
Export part data

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Part Review — SWLP.2450.10.4.A.02
Source reviewed
Current project metadata
  • Project/part name: SWLP.2450.10.4.A.02
  • Manufacturer recommendation/description field: Taoglas
  • Manufacturer Part Number: SWLP.2450.10.4.A.02
  • Designator Prefix: ANT
  • Pads/terminals present: 9
  • Datasheet URL: added to terminal/pin-1 component instance as https://www.taoglas.com/datasheets/SWLP.2450.10.4.A.02.pdf because the part-level datasheet property was not exposed by the available project-property editor.
Datasheet key specs
  • Description: 10.0 × 10.0 × 4.0 mm 2.4 GHz Wi‑Fi SMD patch antenna
  • Frequency band: 2400–2500 MHz
  • Impedance: 50 Ω
  • Polarization: Linear
  • Radiation pattern: Omnidirectional
  • Efficiency: 27.4%
  • Average gain: -5.62 dB
  • Peak gain: -0.26 dBi
  • Maximum input power: 10 W
  • Dimensions: 10.0 × 10.0 × 4.0 mm
  • Weight: 3.1 g
  • Operating temperature: -40 °C to +85 °C
  • Storage temperature: -40 °C to +85 °C
  • Termination: Ag, Pb-free
  • MSL: 3, 168 hours
  • Recommended minimum PCB ground plane: 16 × 12 mm
  • RF trace: 50 Ω transmission line; ground vias recommended around RF feed/clearance area.
Datasheet pinout

Table


PinDatasheet function
1RF Feed
2GND
3GND
4GND
5GND
6GND
7GND
8GND
9GND
Schematic symbol cross-check
  • Pin count matches: 9 terminals exist.
  • Pin numbering matches: terminals for pins 1–9 exist.
  • Functional descriptions do not match: project terminals do not include Pin Description values matching RF Feed/GND.
  • Pin electrical types do not match intent: pins 1–7 and 9 are set to Power In; pin 8 is Passive. Datasheet expects pin 1 to be RF feed/signal/passive and pins 2–9 to be GND/passive or power/ground-equivalent, not power inputs.
  • Symbol placement appears collapsed: most terminal symbols share the same symbol pin position, with only pin 8 separated. This may be intentional for footprint-only part projects, but it is not a readable schematic symbol for an antenna.
Footprint cross-check
  • Pad count matches: 9 PCB pads are present.
  • The footprint visual outline is roughly consistent with a 10 mm square antenna body and includes an RF feed clearance/neck area.
  • Exact pad coordinates, pad sizes, solder mask, and paste openings were not exposed in structured layout data, so I could not fully verify the 3.0 mm square copper pads, 2.6 mm paste openings, 2.3 mm mask openings, or all 3.5/5.5/7.0 mm spacing dimensions against the datasheet.
  • Footprint should be checked manually against datasheet section 4.2–4.5 before release, especially RF feed pad, copper clearance, and top-layer keepout.
Mismatches / flags
  1. Pin 1 should be described as RF Feed; currently no pin description is set and pin type is Power In.
  2. Pins 2–9 should be described as GND; currently no GND pin descriptions are set.
  3. Pins 2–7 and 9 are typed as Power In; this is misleading for antenna ground pads. Use Passive, Power, or a ground-equivalent type according to the part-library convention, but not power input.
  4. Datasheet URL was not available as a part-level project property through the available editor; it was added to one terminal instance only. If the UI exposes a top-level Datasheet property, set the same URL there.
  5. Footprint detailed pad geometry could not be fully verified from the structured data returned by the layout inspector.
  • Add pin descriptions: pin 1 = RF Feed; pins 2–9 = GND.
  • Change pin 1 type from Power In to Passive/RF signal style.
  • Change pins 2–9 to a consistent GND/passive type rather than Power In.
  • Verify/edit the footprint against datasheet section 4.2–4.5, including pad size, paste/mask openings, copper clearance, and the 50 Ω RF feed keepout.
  • Set the datasheet URL at the part/project level if the property is available in the part editor UI.
  • Source reviewed

  • Current project metadata

  • Datasheet key specs

  • Datasheet pinout

  • Schematic symbol cross-check

  • Footprint cross-check

  • Mismatches / flags

  • Recommended corrections

Documents

  • Part Review — SWLP.2450.10.4.A.02

Assets

kicad_mod

SWLP.2450.10.4.A.02

ANTENNA_SWLP.2450.10.4.A.02.kicad_modFootprint
SWLP.2450.10.4.A.02-thumb.png

SWLP.2450.10.4.A.02-thumb.png

SWLP.2450.10.4.A.02-thumbThumbnail

SWLP.2450.10.4.A.02

SWLP.2450.10.4.A.02 thumbnail
RF ANTENNA Bluetooth, Wi-Fi, WLAN, Zigbee™ Ceramic Patch Solder Surface Mount The SWLP.2450.10.4.A.02 specification defines the engineering requirements for a surface-mount radio frequency antenna designed for wireless communication applications operating within the 2.4 GHz frequency band. This specification establishes the functional, electrical, mechanical, environmental, and quality requirements necessary to ensure efficient RF transmission and reception, stable antenna performance, and long-term operational reliability in embedded electronic systems.
The antenna is intended for use in wireless communication devices supporting technologies such as Bluetooth, Wi-Fi, Zigbee, Thread, and other 2.4 GHz ISM band protocols. It is optimized for compact PCB integration while providing efficient radiation characteristics, stable impedance matching, and dependable performance in space-constrained electronic products including IoT devices, industrial controllers, consumer electronics, and smart sensing platforms.
Engineering Requirements
The antenna shall be manufactured using qualified conductive and dielectric materials with controlled production processes to ensure consistent RF performance, mechanical durability, and long-term reliability. The construction shall maintain stable electrical characteristics throughout the specified operating temperature and environmental conditions.
Electrical characteristics shall provide efficient radiation efficiency, stable impedance matching, low return loss, and reliable signal transmission and reception across the intended operating frequency range. The antenna shall maintain consistent performance when integrated according to the recommended PCB layout and grounding practices.
The RF structure shall minimize insertion losses and support reliable wireless communication while maintaining acceptable gain, bandwidth, and radiation pattern characteristics. The antenna shall exhibit stable performance under normal operating conditions without significant degradation caused by thermal variation or environmental exposure.
Mechanical construction shall be suitable for automated surface-mount assembly and compatible with standard solder reflow manufacturing processes. The package shall withstand vibration, thermal cycling, mechanical handling, and environmental stress without degradation of electrical or structural performance. Workmanship shall be free from defects including cracks, contamination, plating irregularities, or structural inconsistencies that could adversely affect RF performance or reliability.
Inspection, validation, and testing shall be performed using calibrated RF measurement equipment and controlled quality procedures to verify compliance with engineering and manufacturing requirements. Any deviation from this specification shall require formal engineering evaluation, documented technical justification, and approval through the established engineering change control process before implementation.
Documentation
Supporting documentation shall include engineering drawings, RF performance specifications, impedance matching recommendations, qualification reports, inspection records, reliability data, material declarations, and revision-controlled manufacturing documentation. All documentation shall be maintained under formal configuration management and quality assurance systems to ensure complete product traceability.
Revision Control
Any modification to this specification shall be managed through the formal engineering change management process. All revisions shall undergo technical review, validation, and approval before release to ensure continued compliance with design intent and applicable engineering standards.

Properties

SWLP.2450.10.4.A.02

Taoglas Limited

Antenna

ANT

parametric-v1

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