Mutable Instruments Anushri User Manual page 5

One can think of this setting as a "VCA envelope solidity" parameter. Note that when this control is set to the One can think of this setting as a "VCA envelope solidity" parameter. Note that when this control is set to the One can think of this setting as a "VCA envelope solidity" parameter. Note that when this control is set to the One can think of this setting as a "VCA envelope solidity" parameter. Note that when this control is set to the One can think of this setting as a "VCA envelope solidity" parameter. Note that when this control is set to the One can think of this setting as a "VCA envelope solidity" parameter. Note that when this control is set to the One can think of this setting as a "VCA envelope solidity" parameter. Note that when this control is set to the One can think of this setting as a "VCA envelope solidity" parameter. Note that when this control is set to the
most extreme "gate" setting, the envelope actually has a non-null but tiny release time (exaggerated on the most extreme "gate" setting, the envelope actually has a non-null but tiny release time (exaggerated on the most extreme "gate" setting, the envelope actually has a non-null but tiny release time (exaggerated on the most extreme "gate" setting, the envelope actually has a non-null but tiny release time (exaggerated on the most extreme "gate" setting, the envelope actually has a non-null but tiny release time (exaggerated on the most extreme "gate" setting, the envelope actually has a non-null but tiny release time (exaggerated on the most extreme "gate" setting, the envelope actually has a non-null but tiny release time (exaggerated on the most extreme "gate" setting, the envelope actually has a non-null but tiny release time (exaggerated on the
drawing). This prevents clicks when a note is released. drawing). This prevents clicks when a note is released. drawing). This prevents clicks when a note is released. drawing). This prevents clicks when a note is released. drawing). This prevents clicks when a note is released. drawing). This prevents clicks when a note is released. drawing). This prevents clicks when a note is released. drawing). This prevents clicks when a note is released.
Technical note: the LFOs and Envelopes are digitally generated, using a 2.45kHz refresh rate and a 12-bit Technical note: the LFOs and Envelopes are digitally generated, using a 2.45kHz refresh rate and a 12-bit Technical note: the LFOs and Envelopes are digitally generated, using a 2.45kHz refresh rate and a 12-bit Technical note: the LFOs and Envelopes are digitally generated, using a 2.45kHz refresh rate and a 12-bit Technical note: the LFOs and Envelopes are digitally generated, using a 2.45kHz refresh rate and a 12-bit Technical note: the LFOs and Envelopes are digitally generated, using a 2.45kHz refresh rate and a 12-bit Technical note: the LFOs and Envelopes are digitally generated, using a 2.45kHz refresh rate and a 12-bit Technical note: the LFOs and Envelopes are digitally generated, using a 2.45kHz refresh rate and a 12-bit
resolution DAC (with 16-bit internal computations). resolution DAC (with 16-bit internal computations). resolution DAC (with 16-bit internal computations). resolution DAC (with 16-bit internal computations). resolution DAC (with 16-bit internal computations). resolution DAC (with 16-bit internal computations). resolution DAC (with 16-bit internal computations). resolution DAC (with 16-bit internal computations).
VCO tuning VCO tuning VCO tuning VCO tuning VCO tuning VCO tuning VCO tuning VCO tuning
Anushri's saw-core VCO uses a temperature compensation scheme (published by Osamu Hoshuyama) which Anushri's saw-core VCO uses a temperature compensation scheme (published by Osamu Hoshuyama) which Anushri's saw-core VCO uses a temperature compensation scheme (published by Osamu Hoshuyama) which Anushri's saw-core VCO uses a temperature compensation scheme (published by Osamu Hoshuyama) which Anushri's saw-core VCO uses a temperature compensation scheme (published by Osamu Hoshuyama) which Anushri's saw-core VCO uses a temperature compensation scheme (published by Osamu Hoshuyama) which Anushri's saw-core VCO uses a temperature compensation scheme (published by Osamu Hoshuyama) which Anushri's saw-core VCO uses a temperature compensation scheme (published by Osamu Hoshuyama) which
makes it quite stable once the inside temperature of the case has plateaued. A reset-time compensation scheme makes it quite stable once the inside temperature of the case has plateaued. A reset-time compensation scheme makes it quite stable once the inside temperature of the case has plateaued. A reset-time compensation scheme makes it quite stable once the inside temperature of the case has plateaued. A reset-time compensation scheme makes it quite stable once the inside temperature of the case has plateaued. A reset-time compensation scheme makes it quite stable once the inside temperature of the case has plateaued. A reset-time compensation scheme makes it quite stable once the inside temperature of the case has plateaued. A reset-time compensation scheme makes it quite stable once the inside temperature of the case has plateaued. A reset-time compensation scheme
(De Franco resistor) attenuates the flat detuning in the higher octaves, allowing the VCO to track well over the (De Franco resistor) attenuates the flat detuning in the higher octaves, allowing the VCO to track well over the (De Franco resistor) attenuates the flat detuning in the higher octaves, allowing the VCO to track well over the (De Franco resistor) attenuates the flat detuning in the higher octaves, allowing the VCO to track well over the (De Franco resistor) attenuates the flat detuning in the higher octaves, allowing the VCO to track well over the (De Franco resistor) attenuates the flat detuning in the higher octaves, allowing the VCO to track well over the (De Franco resistor) attenuates the flat detuning in the higher octaves, allowing the VCO to track well over the (De Franco resistor) attenuates the flat detuning in the higher octaves, allowing the VCO to track well over the
55 .. 1760 Hz range. 55 .. 1760 Hz range. 55 .. 1760 Hz range. 55 .. 1760 Hz range. 55 .. 1760 Hz range. 55 .. 1760 Hz range. 55 .. 1760 Hz range. 55 .. 1760 Hz range.
However, to reach these performances, the VCO needs calibration through a set of two trimmers (Offset and However, to reach these performances, the VCO needs calibration through a set of two trimmers (Offset and However, to reach these performances, the VCO needs calibration through a set of two trimmers (Offset and However, to reach these performances, the VCO needs calibration through a set of two trimmers (Offset and However, to reach these performances, the VCO needs calibration through a set of two trimmers (Offset and However, to reach these performances, the VCO needs calibration through a set of two trimmers (Offset and However, to reach these performances, the VCO needs calibration through a set of two trimmers (Offset and However, to reach these performances, the VCO needs calibration through a set of two trimmers (Offset and
V/Oct) at the back of the board. V/Oct) at the back of the board. V/Oct) at the back of the board. V/Oct) at the back of the board. V/Oct) at the back of the board. V/Oct) at the back of the board. V/Oct) at the back of the board. V/Oct) at the back of the board.
To spare you this lengthy process, a software compensation can be enabled that will instantly bias Anushri's To spare you this lengthy process, a software compensation can be enabled that will instantly bias Anushri's To spare you this lengthy process, a software compensation can be enabled that will instantly bias Anushri's To spare you this lengthy process, a software compensation can be enabled that will instantly bias Anushri's To spare you this lengthy process, a software compensation can be enabled that will instantly bias Anushri's To spare you this lengthy process, a software compensation can be enabled that will instantly bias Anushri's To spare you this lengthy process, a software compensation can be enabled that will instantly bias Anushri's To spare you this lengthy process, a software compensation can be enabled that will instantly bias Anushri's
internal CV conversion stage to reach the right tuning. To enable this correction: internal CV conversion stage to reach the right tuning. To enable this correction: internal CV conversion stage to reach the right tuning. To enable this correction: internal CV conversion stage to reach the right tuning. To enable this correction: internal CV conversion stage to reach the right tuning. To enable this correction: internal CV conversion stage to reach the right tuning. To enable this correction: internal CV conversion stage to reach the right tuning. To enable this correction: internal CV conversion stage to reach the right tuning. To enable this correction:
Make sure that the Make sure that the Make sure that the Make sure that the Make sure that the Make sure that the Make sure that the Make sure that the Sync Sync Sync Sync Sync Sync Sync Sync
Hold the Hold the Hold the Hold the Hold the Hold the Hold the Hold the Hold Hold Hold Hold Hold Hold Hold Hold button and press Run/stop. A short, faint arpeggio will be heard - this is the sound of Anushri button and press Run/stop. A short, faint arpeggio will be heard - this is the sound of Anushri button and press Run/stop. A short, faint arpeggio will be heard - this is the sound of Anushri button and press Run/stop. A short, faint arpeggio will be heard - this is the sound of Anushri button and press Run/stop. A short, faint arpeggio will be heard - this is the sound of Anushri button and press Run/stop. A short, faint arpeggio will be heard - this is the sound of Anushri button and press Run/stop. A short, faint arpeggio will be heard - this is the sound of Anushri button and press Run/stop. A short, faint arpeggio will be heard - this is the sound of Anushri
trying to play several notes through the VCO and measuring their frequency in order to evaluate the VCO trying to play several notes through the VCO and measuring their frequency in order to evaluate the VCO trying to play several notes through the VCO and measuring their frequency in order to evaluate the VCO trying to play several notes through the VCO and measuring their frequency in order to evaluate the VCO trying to play several notes through the VCO and measuring their frequency in order to evaluate the VCO trying to play several notes through the VCO and measuring their frequency in order to evaluate the VCO trying to play several notes through the VCO and measuring their frequency in order to evaluate the VCO trying to play several notes through the VCO and measuring their frequency in order to evaluate the VCO
accuracy. After that, the VCO will be tuned. accuracy. After that, the VCO will be tuned. accuracy. After that, the VCO will be tuned. accuracy. After that, the VCO will be tuned. accuracy. After that, the VCO will be tuned. accuracy. After that, the VCO will be tuned. accuracy. After that, the VCO will be tuned. accuracy. After that, the VCO will be tuned.
You can repeat this operation if the unit has been subjected to large changes of temperature, or if you don't want You can repeat this operation if the unit has been subjected to large changes of temperature, or if you don't want You can repeat this operation if the unit has been subjected to large changes of temperature, or if you don't want You can repeat this operation if the unit has been subjected to large changes of temperature, or if you don't want You can repeat this operation if the unit has been subjected to large changes of temperature, or if you don't want You can repeat this operation if the unit has been subjected to large changes of temperature, or if you don't want You can repeat this operation if the unit has been subjected to large changes of temperature, or if you don't want You can repeat this operation if the unit has been subjected to large changes of temperature, or if you don't want
to wait for the warm-up period and want to start playing in tune immediately. to wait for the warm-up period and want to start playing in tune immediately. to wait for the warm-up period and want to start playing in tune immediately. to wait for the warm-up period and want to start playing in tune immediately. to wait for the warm-up period and want to start playing in tune immediately. to wait for the warm-up period and want to start playing in tune immediately. to wait for the warm-up period and want to start playing in tune immediately. to wait for the warm-up period and want to start playing in tune immediately.
Enabling this software compensation has two side-effects: Enabling this software compensation has two side-effects: Enabling this software compensation has two side-effects: Enabling this software compensation has two side-effects: Enabling this software compensation has two side-effects: Enabling this software compensation has two side-effects: Enabling this software compensation has two side-effects: Enabling this software compensation has two side-effects:
The VCO will be off-tune when triggered from external CV signals. The VCO will be off-tune when triggered from external CV signals. The VCO will be off-tune when triggered from external CV signals. The VCO will be off-tune when triggered from external CV signals. The VCO will be off-tune when triggered from external CV signals. The VCO will be off-tune when triggered from external CV signals. The VCO will be off-tune when triggered from external CV signals. The VCO will be off-tune when triggered from external CV signals.
The CV output will be "tailored" for Anushri's own VCO and won't strictly adhere to the V/Oct standard. The CV output will be "tailored" for Anushri's own VCO and won't strictly adhere to the V/Oct standard. The CV output will be "tailored" for Anushri's own VCO and won't strictly adhere to the V/Oct standard. The CV output will be "tailored" for Anushri's own VCO and won't strictly adhere to the V/Oct standard. The CV output will be "tailored" for Anushri's own VCO and won't strictly adhere to the V/Oct standard. The CV output will be "tailored" for Anushri's own VCO and won't strictly adhere to the V/Oct standard. The CV output will be "tailored" for Anushri's own VCO and won't strictly adhere to the V/Oct standard. The CV output will be "tailored" for Anushri's own VCO and won't strictly adhere to the V/Oct standard.
If you intend to use Anushri with a modular setup where accurate V/Oct compliance is necessary, it is If you intend to use Anushri with a modular setup where accurate V/Oct compliance is necessary, it is If you intend to use Anushri with a modular setup where accurate V/Oct compliance is necessary, it is If you intend to use Anushri with a modular setup where accurate V/Oct compliance is necessary, it is If you intend to use Anushri with a modular setup where accurate V/Oct compliance is necessary, it is If you intend to use Anushri with a modular setup where accurate V/Oct compliance is necessary, it is If you intend to use Anushri with a modular setup where accurate V/Oct compliance is necessary, it is If you intend to use Anushri with a modular setup where accurate V/Oct compliance is necessary, it is
recommended to disable software tuning correction and take the time to trim the VCO. To disable software recommended to disable software tuning correction and take the time to trim the VCO. To disable software recommended to disable software tuning correction and take the time to trim the VCO. To disable software recommended to disable software tuning correction and take the time to trim the VCO. To disable software recommended to disable software tuning correction and take the time to trim the VCO. To disable software recommended to disable software tuning correction and take the time to trim the VCO. To disable software recommended to disable software tuning correction and take the time to trim the VCO. To disable software recommended to disable software tuning correction and take the time to trim the VCO. To disable software
tuning correction, hold the tuning correction, hold the tuning correction, hold the tuning correction, hold the tuning correction, hold the tuning correction, hold the tuning correction, hold the tuning correction, hold the Hold Hold Hold Hold Hold Hold Hold Hold
Interfacing with modular equipment Interfacing with modular equipment Interfacing with modular equipment Interfacing with modular equipment Interfacing with modular equipment Interfacing with modular equipment Interfacing with modular equipment Interfacing with modular equipment
Twelve 3.5 I/O jacks are present on the front-panel to interface Anushri's signal processing chain with the Twelve 3.5 I/O jacks are present on the front-panel to interface Anushri's signal processing chain with the Twelve 3.5 I/O jacks are present on the front-panel to interface Anushri's signal processing chain with the Twelve 3.5 I/O jacks are present on the front-panel to interface Anushri's signal processing chain with the Twelve 3.5 I/O jacks are present on the front-panel to interface Anushri's signal processing chain with the Twelve 3.5 I/O jacks are present on the front-panel to interface Anushri's signal processing chain with the Twelve 3.5 I/O jacks are present on the front-panel to interface Anushri's signal processing chain with the Twelve 3.5 I/O jacks are present on the front-panel to interface Anushri's signal processing chain with the
outside world. outside world. outside world. outside world. outside world. outside world. outside world. outside world.
Note that Anushri's internal signals are 5V pp, to allow low-power battery operation - thus, the signals at some Note that Anushri's internal signals are 5V pp, to allow low-power battery operation - thus, the signals at some Note that Anushri's internal signals are 5V pp, to allow low-power battery operation - thus, the signals at some Note that Anushri's internal signals are 5V pp, to allow low-power battery operation - thus, the signals at some Note that Anushri's internal signals are 5V pp, to allow low-power battery operation - thus, the signals at some Note that Anushri's internal signals are 5V pp, to allow low-power battery operation - thus, the signals at some Note that Anushri's internal signals are 5V pp, to allow low-power battery operation - thus, the signals at some Note that Anushri's internal signals are 5V pp, to allow low-power battery operation - thus, the signals at some
audio outputs might need amplification to reach the levels commonly found in modular equipment. However, audio outputs might need amplification to reach the levels commonly found in modular equipment. However, audio outputs might need amplification to reach the levels commonly found in modular equipment. However, audio outputs might need amplification to reach the levels commonly found in modular equipment. However, audio outputs might need amplification to reach the levels commonly found in modular equipment. However, audio outputs might need amplification to reach the levels commonly found in modular equipment. However, audio outputs might need amplification to reach the levels commonly found in modular equipment. However, audio outputs might need amplification to reach the levels commonly found in modular equipment. However,
given that all external signal inputs are fed to virtual grounds through resistors, there is no constraint on the input given that all external signal inputs are fed to virtual grounds through resistors, there is no constraint on the input given that all external signal inputs are fed to virtual grounds through resistors, there is no constraint on the input given that all external signal inputs are fed to virtual grounds through resistors, there is no constraint on the input given that all external signal inputs are fed to virtual grounds through resistors, there is no constraint on the input given that all external signal inputs are fed to virtual grounds through resistors, there is no constraint on the input given that all external signal inputs are fed to virtual grounds through resistors, there is no constraint on the input given that all external signal inputs are fed to virtual grounds through resistors, there is no constraint on the input
voltage ranges (well, don't try sending mains voltage there of course!). voltage ranges (well, don't try sending mains voltage there of course!). voltage ranges (well, don't try sending mains voltage there of course!). voltage ranges (well, don't try sending mains voltage there of course!). voltage ranges (well, don't try sending mains voltage there of course!). voltage ranges (well, don't try sending mains voltage there of course!). voltage ranges (well, don't try sending mains voltage there of course!). voltage ranges (well, don't try sending mains voltage there of course!).
Aux Audio in Aux Audio in Aux Audio in Aux Audio in Aux Audio in Aux Audio in Aux Audio in Aux Audio in is an additional input for external signal processing. It is activated by setting the is an additional input for external signal processing. It is activated by setting the is an additional input for external signal processing. It is activated by setting the is an additional input for external signal processing. It is activated by setting the is an additional input for external signal processing. It is activated by setting the is an additional input for external signal processing. It is activated by setting the is an additional input for external signal processing. It is activated by setting the is an additional input for external signal processing. It is activated by setting the
DCO DCO DCO DCO DCO DCO DCO DCO position, and can be attenuated by the position, and can be attenuated by the position, and can be attenuated by the position, and can be attenuated by the position, and can be attenuated by the position, and can be attenuated by the position, and can be attenuated by the position, and can be attenuated by the
Audio out Audio out Audio out Audio out Audio out Audio out Audio out Audio out is Anushri's final audio output, unaffected by the volume control. is Anushri's final audio output, unaffected by the volume control. is Anushri's final audio output, unaffected by the volume control. is Anushri's final audio output, unaffected by the volume control. is Anushri's final audio output, unaffected by the volume control. is Anushri's final audio output, unaffected by the volume control. is Anushri's final audio output, unaffected by the volume control. is Anushri's final audio output, unaffected by the volume control.
VCA CV in VCA CV in VCA CV in VCA CV in VCA CV in VCA CV in VCA CV in VCA CV in is added to the other VCA modulation sources (envelope and velocity). This input has an impedance is added to the other VCA modulation sources (envelope and velocity). This input has an impedance is added to the other VCA modulation sources (envelope and velocity). This input has an impedance is added to the other VCA modulation sources (envelope and velocity). This input has an impedance is added to the other VCA modulation sources (envelope and velocity). This input has an impedance is added to the other VCA modulation sources (envelope and velocity). This input has an impedance is added to the other VCA modulation sources (envelope and velocity). This input has an impedance is added to the other VCA modulation sources (envelope and velocity). This input has an impedance
of 22kΩ. of 22kΩ. of 22kΩ. of 22kΩ. of 22kΩ. of 22kΩ. of 22kΩ. of 22kΩ.
Drums out Drums out Drums out Drums out Drums out Drums out Drums out Drums out is an individual output with the digital drum synth's signal. Plugging a cable in this connector will is an individual output with the digital drum synth's signal. Plugging a cable in this connector will is an individual output with the digital drum synth's signal. Plugging a cable in this connector will is an individual output with the digital drum synth's signal. Plugging a cable in this connector will is an individual output with the digital drum synth's signal. Plugging a cable in this connector will is an individual output with the digital drum synth's signal. Plugging a cable in this connector will is an individual output with the digital drum synth's signal. Plugging a cable in this connector will is an individual output with the digital drum synth's signal. Plugging a cable in this connector will
remove this signal from the global audio output. remove this signal from the global audio output. remove this signal from the global audio output. remove this signal from the global audio output. remove this signal from the global audio output. remove this signal from the global audio output. remove this signal from the global audio output. remove this signal from the global audio output.
switch is at the switch is at the switch is at the switch is at the switch is at the switch is at the switch is at the switch is at the Off Off Off Off Off Off Off Off position. position. position. position. position. position. position. position.
button and press Rec. button and press Rec. button and press Rec. button and press Rec. button and press Rec. button and press Rec. button and press Rec. button and press Rec.
Sub level Sub level Sub level Sub level Sub level Sub level Sub level Sub level control. The input impedance is 100kΩ. control. The input impedance is 100kΩ. control. The input impedance is 100kΩ. control. The input impedance is 100kΩ. control. The input impedance is 100kΩ. control. The input impedance is 100kΩ. control. The input impedance is 100kΩ. control. The input impedance is 100kΩ.
Sub Sub Sub Sub Sub Sub Sub Sub switch to the switch to the switch to the switch to the switch to the switch to the switch to the switch to the