Product Overview
PM111 LHW CHIRP 2kW Wide-Beam Chirp-Ready Pocket/Keel Mount - No Connector
Get more coverage under your boat with Airmar’s unique wide-beam, high-frequency, Chirp-ready transducer. The high band operates across a frequency range of 150 to 250 kHz and has a fixed 25° beam for all frequencies. The high-frequency band results in superior resolution. The constantly wide beam provides twice the coverage and excellent fish arches on the display compared to most high-frequency, narrow-beam transducer options.
The high wide is the ideal choice for both inshore and pelagic fishing, where resolution and maximum coverage under the boat are essentially down to 152 m (500').
The low-frequency band and 2 kW of power also support great deep-water performance. Get the best of both worlds with Airmar’s dual-frequency, Chirp-ready transducer with wide-beam coverage.
Features:
- The depth and fast-response water-temperature sensor
- 2 kW of power for great deep-water performance from the low frequency
- 2 kW low frequency: 38 to 75 kHz
- 19° to 10° port-starboard beamwidth
- 10° to 5° fore-aft beamwidth
- Maximum depth of 1,829 m (6,000')
- 1 kW high frequency: 150 to 250 kHz
- 25° constant beamwidth
- Maximum depth of 152 m (500')
- 137 kHz of total bandwidth from one transducer
- Covers popular fishing frequencies of 50, 68, and 200 kHz plus everything else in the bandwidth
- High frequency delivers superior shallow-water performance, bottom detail, and fish-target separation
- High wide beamwidth yields more coverage for detecting fish in the upper-water column
- Urethane housing designed for custom mounting in a cavity
- Also available in an external (R109LHW) mount
- Exclusive Xducer ID® technology
Specifications:
- Weight: 13.6 kg (30 lb.)
- Recommended Boat Length: 12 m (40') and above
- Hull Material: Solid fiberglass only
- Hull Deadrise: Accommodates any deadrise angle based on custom cavity construction
- Acoustic Window: Epoxy/urethane
- Transducer Element: 16 internal broadband ceramic assemblies
Brochure (pdf)