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Transcript
ArmoníaTraining Days
Remo Orsoni
Application Engineer
[email protected]
Advanced training
SUMMARY
• Armonia
- WIFI connection to amplifiers and controlling via Armonia
- Special cabling for connecting AES3 inputs to the amplifiers
- Measuring and creating presets for loudspeakers
a) Limiter functions and settings
b) FIR/ IIR X-overs
c) Smaart?
d) Creating a preset.
- Creating a cardioid subwoofer pattern with Armonia
Advanced training
LIVE! WI-FI connection to amplifiers and controlling via Armonia
KAESOP Network Wiring
PORT 1/PORT 2
(IDENTICAL)
100BaseT LAN
AES3-B
stream, ch 3-4
AES3-A stream, ch 1-2
1: 100BaseT AutoMDI
2: 100BaseT AutoMDI
3: 100BaseT AutoMDI
4: AES3-A RX/TX+
5: AES3-A RX/TX6: 100BaseT AutoMDI
7: AES3-B RX/TX+
8: AES3-B RX/TX-
RX/TX+
RX/TXTX/RX+
TX/RX-
KAESOP Network Wiring
Connecting AES3 inputs to the amplifiers.
a) Thru the rear IN2 XLR
(must be push the selector)
AES EBU / ANALOG input selector
From digital AES3 source
Input routing
a) Thru the rear IN2 XLR
(must be push the selector)
Connecting AES3 inputs to the amplifiers.
From digital AES3 source
KAESOP Network Wiring
Connecting AES3 inputs to the amplifiers.
AND \ OR
b) Thru the RJ45 port
(patch panel or Y cable needed)
100BaseT LAN
From Armonia network
AES3-A stream
AES3-B
stream
From digital AES3 source
Input routing
b) Thru the RJ45 port
(patch panel or Y cable needed)
Measuring and creating presets for loudspeakers.
a) Very expensive and advance measurement
system and logistic (anechoic chamber) is necessary
for make a presets.
b) Factory presets is the basics for any custom
preset design and warranty.
c) …. With a good equipment, growing up
experience and lucky we can make a preset from
the scratch.
Limiter functions and setting.
Power limiter
Real time monitor
Peak limiter
Power Limiter setting.
Enable Power limiter
Power sensing
Power vs Volt
or
TruePower
Power vs I
(only special
transducer)
Enable cross
limit mode
(link the GR)
Soft-knee
Link Attack & Release time with X
Peak Limiter setting.
Enable Peak limiter
Link Attack & Release time with X
Displayed information.
Headroom
Output
power
Limiter LED
Gain reduction meter
Gain reduction history
*Display calibrated downwards.
…about loudspeaker Power
Electromechanical transducers transform a significant amount
of power into heat.
They can accept different power level according to the time
and dynamic of the signal apply.
long term > 2 h (AES), better know as RMS  CF < 6 dB
Program – Music > 2 h (Recommended amplifier) CF > 6 dB
short term < 2 s (peak / IEC268-5) CF > 12 dB
Eg. Long term power
Program, Music (Recommended amplifier)
Short term power IEC 268-5
500 W AES
1000 W RMS
2000 W PEAK
Typical subwoofer specification
Typical loudspeaker specification
Typical bi-amp loudspeaker
connection pannel
Typical bi-amp loudspeaker
connection diagram
Power Limiter Threshold W
• TruePower is the preferred setting to choose when
the number of speakers connected to the amplifier
channel is known.
Powersoft suggest a threshold of 1\3 of the power
specification of the loudspeaker
Eg. 750 W AES = 250 W
• Equivalent power @ 8 Ohm setting all power
calculations being based on an arbitrary 8 ohm load
(RMS voltage limiter), unknow speaker number.
Peak limiter Threshold V
• Powersoft supply a excel file for calculate it
(DesignersTool_1.2.5_a.xlsx) or you can use the
formula
Vlim =
𝑊𝐴𝐸𝑆 ∗ 𝑅 ∗ 1,7
• Eg. 2000 W AES @4 ohm = 152 V
NOTE: For very heavy use (24\7 - CF < 3 dB) I suggest
a 1,4 multiplier
• Eg. 2000 W AES @4 ohm = 125 V
Peak limiter
Attack & Release time
Power limiter
Attack & Release time
Measurement
Smaart ?
Two ways loudspeaker
Impulse response IIR X-overs
Two ways loudspeaker
Impulse response FIR X-overs
Two ways loudspeaker
Frrequency response FIR X-overs
Crossover frequency 1630 Hz.
Two ways loudspeaker
3D polar response IIR v\s FIR X-overs
Crossover frequency 1630 Hz.
IIR v\s FIR X-overs
Pro
Full range
Higher x-over area and
«musicality»
Easy to find
Cons
Minimum speaker protection
Phase distortion
Pro
Higher speaker protection
Linear Phase response
Cons
Latency (only up then 1Khz)
Reduced x-over area and
«musicality»
Not Easy to find
Creating a cardioid subwoofer pattern
Pro
Full range
Higher x-over area and
«musicality»
Easy to find
Cons
Minimum speaker protection
Phase distortion
Pro
Higher speaker protection
Linear Phase response
Cons
Latency (only up then 1Khz)
Reduced x-over area and
«musicality»
Not Easy to find