Bring this lightweight and affordable adapter and you'll have peace of mind on your travels.Note: Adapter plugs do not convert electricity.Note: Some countries use more than one outlet configuration. Check with your travel agent, consulate, or hotel for the most accurate information about your destination's electricity and outlet configuration. Power adapters for Mac notebooks are available in 29W, 30W, 45W, 60W, 61W, 85W, 87W and 96W varieties. You should use the appropriate wattage power adapter for your Mac notebook. You can use a compatible higher wattage power adapter without issue, but it won't make your computer charge faster or operate differently.This Europe/Asia adapter can be used in any country with the “B” configuration, so you'll be able to use it across many parts of Europe and Asia. You'll also be able to use it in different hotels and hostels throughout these countries without needing to bring multiple adapters.The Industries we support include: Diesel-electric locomotive manufacturers and Repair Shops, Light Rail and Third Rail mass transit, and Electrical Transit.Italy travel adaptors.
![]() ![]() Products Converter Or Adaptor For Europe Driver Stage AndDiscrete means its made up of lots of individual transistors (well, actually a lot of paired matched transistors now). Magni 3+: choose this one if you want an all-discrete headphone amp. And, if you don’t like your Magni, you can still send it back for a refund, minus 15% restocking fee, within 15 days of receiving your amp.Frequency Response: 20Hz-20Khz, +/-0.04dBMaximum Power, 16 ohms: 2.8W RMS per channelMaximum Power, 32 ohms: 2.4W RMS per channelMaximum Power, 50 ohms: 1.6W RMS per channelMaximum Power, 300 ohms: 410mW RMS per channelMaximum Power, 600 ohms: 215mW RMS per channelHigh Gain: Less than 0.0013% (-98dB) at 1V RMS into 32 ohmsLow Gain: Less than 0.0005% (-106dB) at 1V RMS into 32 ohmsHigh Gain: Less than 0.01% (-80dB) at 1V RMS into 32 ohms, CCIFLow Gain: Less than 0.002% (-95dB) at 1V RMS into 32 ohms, CCIFHigh Gain: Greater than 104dB, A weighted, referenced to 1V RMSLow Gain: Greater than 115dB, A weighted, referenced to 1V RMSCrosstalk: Less than -70dB, 20 Hz-20 kHz in either gainOutput Impedance: Less than 0.2 ohms at either gainGain: 1 (0db) or 5.5 (15db), selectable via rear switchTopology: Fully discrete, fully complementary all-bipolar, symmetrical current-feedback design with driver stage and Vbe multiplier, no capacitors in the signal path and DC servoProtection: Standard failsafe DC power input and muting relayPower Supply: “Wall wart” style 24VA 14VAC transformer, regulated +/- 16V rails with over 8,000uF filter capacitanceHigh Gain: Less than 0.0014% (-97dB) at 1V RMS into 32 ohmsLow Gain: Less than 0.0002% (-113dB) at 1V RMS into 32 ohmsHigh Gain: Less than 0.002% (-95dB) at 1V RMS into 32 ohms, CCIFLow Gain: Less than 0.0006% (-105dB) at 1V RMS into 32 ohms, CCIFOutput Impedance: Less than 0.25 ohms at either gainInput Impedance: 25k ohms minimum in all gainsTopology: OPA1688 op-amp for voltage gain with local feedback, OPA1688 (8 stages) as output buffers with local loops, no overall loop feedback.Power Supply: “Wall wart” style 24VA 15VAC transformer, regulated +/- 16V rails with over 8,000uF filter capacitanceNegative Gain: Less than 0.0003% (-110dB) at 333 mV RMS into 32 ohmsHigh Gain: Less than 0.0003% (-110dB) at 1V RMS into 32 ohms, CCIFLow Gain: Less than 0.0002% (-115dB) at 1V RMS into 32 ohms, CCIFNegative Gain: Less than 0.0002% (-118dB) at 333mV RMS into 32 ohms, CCIFHigh Gain: Greater than 110dB, A weighted, referenced to 1V RMSLow Gain: Greater than 119dB, A weighted, referenced to 1V RMSNegative Gain: Greater than 122dB, A weighted, referenced to 1V RMSCrosstalk: Less than -70dB, 20 Hz-20 kHz in all gainsOutput Impedance: Less than 0.33 ohms in all gainsInput Impedance: 40k ohms minimum in all gainsGain: 0.3 (-10dB), 1 (0db), or 5.5 (15db), selectable via rear switchTopology: OPA1656 for voltage gain with local feedback, OPA1656 (6 stages per channel) as output buffers with local loops, no overall loop feedback.Protection: Standard failsafe DC power input and muting relay, DC sense and mute.Power Supply: “Wall wart” style 14-16VAC transformer, regulated +/- 16V rails with over 8,000uF filter capacitanceI think we covered this in the product description, but here goes again, with more detail In the case of the Magni family, the chassis are made in California, the PCBs are made in Nevada, and it all comes together at our Corpus Christi, TX facility.All Magnis are covered by a 2-year parts and labor warranty. IEMagni also includes additional DC protection for sensitive IEMs.By “designed and built in Texas" this is what we mean: the vast majority of the total production cost of Magni—chassis, boards, transformers, assembly, etc—goes to US companies manufacturing in the US. Continue numbering in outlook for macMagni Heresy: choose this one if you want a 100% op-amp-based headphone amp that delivers spectacular measurements. It's a super-advanced amp, and we’re very proud of it. The driver reduces distortion and the Vbe multiplier means the bias is more stable. In fact, the topology is exactly that of a 2-stage speaker amp now, since we added a driver stage and Vbe multiplier for biasing. IEMagni gives you three gain settings, including negative gain for broad volume range and vanishingly low noise, even on crazy-sensitive IEMs. IEMagni: choose this one if you want even more versatility for ultra-sensitive in-ear monitors—while keeping the power output you need for hard-to-drive headphones. With these advanced parts (the OPA1688 even uses feedforward in its topology), we’re getting 6-8dB lower THD+N than Magni 3+, which is already 10-15dB lower THD+N than Magni 3. All of this additional stuff means it costs a bit more than the other Magnis. IEMagni uses the OPA1656 throughout, one each per channel for gain, 6 stages per channel for output.
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