![]() this interpolates the display data into a smoother curve, so frequency levels in the higher octaves are easier to gauge. this is increasing the resolution of the display, so it's more accurate. To start, i'd make some manual adjustments in span:ĮDIT>BLOCK SIZE>change to 8192 (or higher if the display doesn't start reacting sluggishly, depending on your cpu). I will be getting some flatter response headphones soon - maybe sony 7506 or Audio Technica m40fs.Įither way, it's still mixing in the cans, so I need something to offset that shortcoming. On the Sony car system, Paper Cuts is nice 'n loud, but the bass has no real fat low end as in the headphones.Īny advice as to using the frequency analyzer more effectively to compensate for bass headphone mixing? I thought I was doing the right thing ( ok, I record the bass in stereo, but check the correlation meter is +1'ing) to get a fat, slam bass sound on other systems beside my headphones. Using Reaper, I've started using Voxengo Span frequency analyzer to monitor the bass frequencies in the mix, such as my last bass track, Paper Cuts. They come up ok on the Sony system, but the results of the bass in the mixes is very inconsistent, compared to listening in the headphones. I've remixed a lot of stereo tracks just using headphones in the meantime. (dunno what the speakers are,they're tucked away under panels, but commercial mixes sound good on them ). I recently got my car back after a bingle a coupla months back, and can start using the Sony 52 watt x 4, cd player again to check the mixes I figure they're a fair reference for the type of thing internet listeners will listening on. I use two sets of open headphones - an old pair of Sennheiser HD 420's, which dampen the top end, and a pair of Philips SBC HL 140's which are bright. I need some advice and a bit of tutoring here.ĭue to living conditions, surrounded by shift workers, I can't use speakers to monitor a mix. My question is a bit different and I didn't want to take over his thread. The LTE-Lite SMT Module is available in an easy-to-use evaluation kit form that includes all accessories to operate the unit.I realise tstu 102 has just posted a similar thread posing bass mix problems, but I didn't see my answer there. Providing true 5Hz GPS NMEA messaging allows for very precise positioning in UAV and other mobile applications. The LTE-Lite also provides a proprietary NMEA message with oscillator lock-status and health information, with the same information being mirrored on the TTL status outputs for applications without serial interface. The LTE-Lite provides all the standard NMEA output messages at rates of 1Hz or 5Hz. The LTE-Lite provides better than one part per billion frequency accuracy and better than 10 nanoseconds timing accuracy on average in a small SMT form factor that suits itself to high volume mass production products at cost points amendable to low-cost Small-Cell manufacturers. The LTE-Lite time and frequency reference provides GNSS time and frequency synchronization for cost-sensitive network equipment, in particular LTE 4G applications and Small Cell products from Micro Cells to Femto Cells. The LTE-Lite uses true analog crystal disciplining for superior phase noise and jitter performance. The breakthrough LTE-Lite Frequency and Timing SMT module integrates a GPS receiver, filtered power supplies, and a software-disciplined crystal oscillator into a 0.7 x 1.18 inch footprint GPSDO SMT module. Full NMEA output with 1Hz and 5Hz PVT update rates, and oscillator lock status message.Support for disciplining external oscillators including CSAC.Two independent frequency outputs (one synthesized).3.3V operation, very low power consumption, and TTL strap configuration.
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