Conclusion:
The best sounding wireless transmission system of any type I've ever heard. Like the Line 6 digital wireless, it's stupid simple to operate and somewhat limited in maximum channel count (16 in this case). Unlike the Line 6, this is digital without dropouts.*
Usage:
I just happened to have the pleasure of reinforcing the same band last week as was alluded to in my PSM900 review. The front man had the Quadra and the remaining muso's used the PSM900's. Once I got the lead comfortable with the four knobs, we were set (we ran two stereo mixes to him, band on one pair and his keys and vox on the other pair). He loved it. The bassist fussed about the PSM900's ducking effect on the keys with snare hits, but the remainder of the band were quite happy with the Shure's. Happily, it's rare for folks to fuss at me about the compression effect of the Shure's.
Of note is the fact that I drove all 4 channels of the Quadra transmitter digitally at a 48kHz sample rate via two AES3 outputs of my digital snake rack. Sources on stage were converted to 48kHz/24bit by Yamaha AD8HR's, sent via EtherSound to an M7CL for mixing and an AuviTran AVM500 for multitrack recording, sent back through the same CAT5 cable to the digital snake and converted from EtherSound to AES3 by a Yamaha NAI48-ES.
Particulars:
This is a 900MHz digital wireless IEM system capable of configurations in 1, 2, or 4 channels in various arrangements per beltpack. One thing I'd like to see is the ability to have the same mix on channels 3 and 4 go to all beltpacks. That way everyone could get the lead's vox and instrument with independent control while using only 2 of the available 16 maximum transmitter channels. The 4 transmitter input channels can accept all analog, all digital or two analog and two digital. The beltpack holds 3 AA batteries thus is a little larger than most, has a Mercedes feel and the membrane switches feel solid and as if they'll last longer than you will.
The transmitter headphone out volume knob is one of those types you can press in flush with the face of the unit. The nice thing about that is you can set the volume the way you like it, press it in and it'll stay at that way. The unit I had rubbed against its hole a bit which made it difficult to adjust since the knob is not serrated. There are 4 membrane switches along the bottom of the display that make it painless to choose which channel you'd like to monitor. The headphone output jack itself is 1/4" instead of 1/8". That'll bug some monitor engineers I'm sure, but I use console headphones for this kind of thing so it's good news to me.
HF Shelf is unusual in that it not only allows up to 9dB of boost in 3dB increments, but allows you to choose what appears to be 2nd order shelf corners at 5kHz or 7kHz. Continuing with the unusual theme, the indicated adjustments equal the actual adjustments.
I'd prefer the beltpacks' external gain pots be harder to turn and have a strongly detented feel to them. This did not occur in use, but it seems to me that the easy to adjust knobs could provide quite a surprise to a performer that has a belt or shirt dragged quickly across the knobs - such as the Chili Peppers used to do when they ripped their clothes off and painted themselves orange during their sets. I'm surprised Karl didn't think of this because he loved those shows. Anyway, 3 of the pots have a detent 1/2 way through their range - same as you'd have on an console pan pot. This is unnecessary IMO because the knobs already have a nicely raised center edge to indicate position by look or feel.
The power button on the transmitter rocks. Big with a feel more appropriate for a 20 amp switch. That thing will not be turned on or off accidentally. A nice addition would be to copy the Shure PSM900 design where you have a second switch for the RF transmit that allows you to turn the unit on and make adjustments without possibly surprising someone.
At first I was annoyed that the beltpack didn't sport a battery meter - only a green LED next to the display panel. After reading the manual I found that the LED will turn red when there's only 1/3 battery life remaining and eventually start flashing red to inform the monitor engineer that this is his last show with me. Battery life is quite workable - 3 hours of use and the green battery LED is still on. One very nice aspect of having the battery LED not included with the display is that it can be seen even after the display times-out and goes dark. It would be nice to have battery meters on the transmitter as well. Digital can do anything, right?
The transmitter clip indicators are dead on though not easy to see in a live show environment. The world standard in clip indication are the Sennheiser units where the whole display panel flashes red - brilliant - too bad the metering itself is misleading. The Quadra beltpack receives its metering data from the transmitter, thus shows clipping at the identical threshold. With the transmitter adjusted to its lowest gain setting of "-20", the maximum input is +18dBu broadband or +20dBu at frequencies above about 50Hz. Also of interest is that at maximum input to the transmitter the beltpack gain controls must be at 50% or less in order to maintain distortion free output, though this is something I found only with measurement, not listening (it's minor). At drive levels with appropriately rare +20dBu peaks this system will perform flawlessly.
Driving the transmitter digitally is interesting. Low frequency under 20Hz is flatter if you feel you have a need for that (!). Something this system does that I've come across before that I don't understand is that every time you cycle the beltpack's power the latency changes by a sample or two. It's completely immaterial, but fascinating nonetheless. Based on the frequency response it appears that the Quadra system is operating at 48kHz internally.
The limiter works as indicated; 3dB gain reduction increments up to -18dB max. IEM limiters are intended for hearing protection but are rarely used. FFT measurements assume linear behavior in the DUT and limiters violate that requirement, so no (not-so) pretty traces.
Useful background on the following measurements.
Input Levels from -40dBu to +18dBu:
HF Shelves:
6.5ms Gated Sine Bursts with THD:
Analog vs Digital Transfer Functions:
Edit 1: my initial measurements using CLIO's digital output indicated increased latency when using the Quadra's digital inputs (2.42ms at 96kHz and 3.25ms at 48kHz). Latency when driving the analog inputs is about 0.95ms. After bothering to read Lectro's specs this morning, latency should drop as you would expect when bypassing the A/D section of the Quadra. I'll figure out what I'm doing wrong and report back.
Edit 2: actually, CLIO's latency results above should be even longer because the measurement hardware's D/A converter is removed from the loop. See Further Observations post for further observations.
Edit 3: Don Boomer made an good point in a PM to me today that I either forgot about or don't remember - the Line 6 demo I had was a beta unit. If the production units prove as dropout-free as the analog RF stuff I'm used to, it'll be an amazing value.
The best sounding wireless transmission system of any type I've ever heard. Like the Line 6 digital wireless, it's stupid simple to operate and somewhat limited in maximum channel count (16 in this case). Unlike the Line 6, this is digital without dropouts.*
Usage:
I just happened to have the pleasure of reinforcing the same band last week as was alluded to in my PSM900 review. The front man had the Quadra and the remaining muso's used the PSM900's. Once I got the lead comfortable with the four knobs, we were set (we ran two stereo mixes to him, band on one pair and his keys and vox on the other pair). He loved it. The bassist fussed about the PSM900's ducking effect on the keys with snare hits, but the remainder of the band were quite happy with the Shure's. Happily, it's rare for folks to fuss at me about the compression effect of the Shure's.
Of note is the fact that I drove all 4 channels of the Quadra transmitter digitally at a 48kHz sample rate via two AES3 outputs of my digital snake rack. Sources on stage were converted to 48kHz/24bit by Yamaha AD8HR's, sent via EtherSound to an M7CL for mixing and an AuviTran AVM500 for multitrack recording, sent back through the same CAT5 cable to the digital snake and converted from EtherSound to AES3 by a Yamaha NAI48-ES.
Particulars:
This is a 900MHz digital wireless IEM system capable of configurations in 1, 2, or 4 channels in various arrangements per beltpack. One thing I'd like to see is the ability to have the same mix on channels 3 and 4 go to all beltpacks. That way everyone could get the lead's vox and instrument with independent control while using only 2 of the available 16 maximum transmitter channels. The 4 transmitter input channels can accept all analog, all digital or two analog and two digital. The beltpack holds 3 AA batteries thus is a little larger than most, has a Mercedes feel and the membrane switches feel solid and as if they'll last longer than you will.
The transmitter headphone out volume knob is one of those types you can press in flush with the face of the unit. The nice thing about that is you can set the volume the way you like it, press it in and it'll stay at that way. The unit I had rubbed against its hole a bit which made it difficult to adjust since the knob is not serrated. There are 4 membrane switches along the bottom of the display that make it painless to choose which channel you'd like to monitor. The headphone output jack itself is 1/4" instead of 1/8". That'll bug some monitor engineers I'm sure, but I use console headphones for this kind of thing so it's good news to me.
HF Shelf is unusual in that it not only allows up to 9dB of boost in 3dB increments, but allows you to choose what appears to be 2nd order shelf corners at 5kHz or 7kHz. Continuing with the unusual theme, the indicated adjustments equal the actual adjustments.
I'd prefer the beltpacks' external gain pots be harder to turn and have a strongly detented feel to them. This did not occur in use, but it seems to me that the easy to adjust knobs could provide quite a surprise to a performer that has a belt or shirt dragged quickly across the knobs - such as the Chili Peppers used to do when they ripped their clothes off and painted themselves orange during their sets. I'm surprised Karl didn't think of this because he loved those shows. Anyway, 3 of the pots have a detent 1/2 way through their range - same as you'd have on an console pan pot. This is unnecessary IMO because the knobs already have a nicely raised center edge to indicate position by look or feel.
The power button on the transmitter rocks. Big with a feel more appropriate for a 20 amp switch. That thing will not be turned on or off accidentally. A nice addition would be to copy the Shure PSM900 design where you have a second switch for the RF transmit that allows you to turn the unit on and make adjustments without possibly surprising someone.
At first I was annoyed that the beltpack didn't sport a battery meter - only a green LED next to the display panel. After reading the manual I found that the LED will turn red when there's only 1/3 battery life remaining and eventually start flashing red to inform the monitor engineer that this is his last show with me. Battery life is quite workable - 3 hours of use and the green battery LED is still on. One very nice aspect of having the battery LED not included with the display is that it can be seen even after the display times-out and goes dark. It would be nice to have battery meters on the transmitter as well. Digital can do anything, right?
The transmitter clip indicators are dead on though not easy to see in a live show environment. The world standard in clip indication are the Sennheiser units where the whole display panel flashes red - brilliant - too bad the metering itself is misleading. The Quadra beltpack receives its metering data from the transmitter, thus shows clipping at the identical threshold. With the transmitter adjusted to its lowest gain setting of "-20", the maximum input is +18dBu broadband or +20dBu at frequencies above about 50Hz. Also of interest is that at maximum input to the transmitter the beltpack gain controls must be at 50% or less in order to maintain distortion free output, though this is something I found only with measurement, not listening (it's minor). At drive levels with appropriately rare +20dBu peaks this system will perform flawlessly.
Driving the transmitter digitally is interesting. Low frequency under 20Hz is flatter if you feel you have a need for that (!). Something this system does that I've come across before that I don't understand is that every time you cycle the beltpack's power the latency changes by a sample or two. It's completely immaterial, but fascinating nonetheless. Based on the frequency response it appears that the Quadra system is operating at 48kHz internally.
The limiter works as indicated; 3dB gain reduction increments up to -18dB max. IEM limiters are intended for hearing protection but are rarely used. FFT measurements assume linear behavior in the DUT and limiters violate that requirement, so no (not-so) pretty traces.
Useful background on the following measurements.
Input Levels from -40dBu to +18dBu:
HF Shelves:
6.5ms Gated Sine Bursts with THD:
Analog vs Digital Transfer Functions:
Edit 1: my initial measurements using CLIO's digital output indicated increased latency when using the Quadra's digital inputs (2.42ms at 96kHz and 3.25ms at 48kHz). Latency when driving the analog inputs is about 0.95ms. After bothering to read Lectro's specs this morning, latency should drop as you would expect when bypassing the A/D section of the Quadra. I'll figure out what I'm doing wrong and report back.
Edit 2: actually, CLIO's latency results above should be even longer because the measurement hardware's D/A converter is removed from the loop. See Further Observations post for further observations.
Edit 3: Don Boomer made an good point in a PM to me today that I either forgot about or don't remember - the Line 6 demo I had was a beta unit. If the production units prove as dropout-free as the analog RF stuff I'm used to, it'll be an amazing value.
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