BiquadFilter

Thin wrapper around the native Web Audio BiquadFilterNode. BiquadFilter is similar to Filter but doesn't have the option to set the "rolloff" value.

Hierarchy

Constructor

new BiquadFilter (
frequency?:Frequency ,

The cutoff frequency of the filter.

type?:BiquadFilterType

The type of filter.

) => BiquadFilter
new BiquadFilter (
options?:Partial<BiquadFilterOptions >
) => BiquadFilter

Properties

blockTime #

readonly Seconds

The number of seconds of 1 processing block (128 samples)


console.log(Tone.Destination.blockTime);

channelCount #

number

channelCount is the number of channels used when up-mixing and down-mixing connections to any inputs to the node. The default value is 2 except for specific nodes where its value is specially determined.

channelCountMode #

ChannelCountMode

channelCountMode determines how channels will be counted when up-mixing and down-mixing connections to any inputs to the node. The default value is "max". This attribute has no effect for nodes with no inputs.

  • "max" - computedNumberOfChannels is the maximum of the number of channels of all connections to an input. In this mode channelCount is ignored.
  • "clamped-max" - computedNumberOfChannels is determined as for "max" and then clamped to a maximum value of the given channelCount.
  • "explicit" - computedNumberOfChannels is the exact value as specified by the channelCount.

channelInterpretation #

ChannelInterpretation

channelInterpretation determines how individual channels will be treated when up-mixing and down-mixing connections to any inputs to the node. The default value is "speakers".

context #

BaseContext

The context belonging to the node.

debug #

boolean

Set this debug flag to log all events that happen in this class.

detune #

Param<"cents" >

A detune value, in cents, for the frequency.

disposed #

readonly boolean

Indicates if the instance was disposed. 'Disposing' an instance means that all of the Web Audio nodes that were created for the instance are disconnected and freed for garbage collection.

frequency #

Param<"frequency" >

The frequency of the filter

gain #

Param<"decibels" >

The gain of the filter. Its value is in dB units. The gain is only used for lowshelf, highshelf, and peaking filters.

input #

BiquadFilterNode

numberOfInputs #

readonly number

The number of inputs feeding into the AudioNode. For source nodes, this will be 0.


const node = new Tone.Gain();
console.log(node.numberOfInputs);

numberOfOutputs #

readonly number

The number of outputs of the AudioNode.


const node = new Tone.Gain();
console.log(node.numberOfOutputs);

output #

BiquadFilterNode

Q #

Param<"number" >

The Q factor of the filter. For lowpass and highpass filters the Q value is interpreted to be in dB. For these filters the nominal range is [−𝑄𝑙𝑖𝑚,𝑄𝑙𝑖𝑚] where 𝑄𝑙𝑖𝑚 is the largest value for which 10𝑄/20 does not overflow. This is approximately 770.63678. For the bandpass, notch, allpass, and peaking filters, this value is a linear value. The value is related to the bandwidth of the filter and hence should be a positive value. The nominal range is [0,3.4028235𝑒38], the upper limit being the most-positive-single-float. This is not used for the lowshelf and highshelf filters.

sampleTime #

readonly Seconds

The duration in seconds of one sample.


console.log(Tone.Transport.sampleTime);

type #

BiquadFilterType

The type of this BiquadFilterNode. For a complete list of types and their attributes, see the Web Audio API

static version #

string

The version number semver

Methods

chain #

Connect the output of this node to the rest of the nodes in series.


const player = new Tone.Player("https://tonejs.github.io/audio/drum-samples/handdrum-loop.mp3");
player.autostart = true;
const filter = new Tone.AutoFilter(4).start();
const distortion = new Tone.Distortion(0.5);
// connect the player to the filter, distortion and then to the master output
player.chain(filter, distortion, Tone.Destination);
chain (
...nodes:InputNode []
) => this

connect #

connect the output of a ToneAudioNode to an AudioParam, AudioNode, or ToneAudioNode

connect (
destination:InputNode ,

The output to connect to

outputNum= 0:number ,

The output to connect from

inputNum= 0:number

The input to connect to

) => this

disconnect #

disconnect the output

disconnect (
destination?:InputNode ,
outputNum= 0:number ,
inputNum= 0:number
) => this

dispose #

Dispose and disconnect

dispose ( ) => this

fan #

connect the output of this node to the rest of the nodes in parallel.


const player = new Tone.Player("https://tonejs.github.io/audio/drum-samples/conga-rhythm.mp3");
player.autostart = true;
const pitchShift = new Tone.PitchShift(4).toDestination();
const filter = new Tone.Filter("G5").toDestination();
// connect a node to the pitch shift and filter in parallel
player.fan(pitchShift, filter);
fan (
...nodes:InputNode []
) => this

get #

Get the object's attributes.


const osc = new Tone.Oscillator();
console.log(osc.get());
get ( ) => BiquadFilterOptions

static getDefaults #

Returns all of the default options belonging to the class.

getDefaults ( ) => BiquadFilterOptions

getFrequencyResponse #

Get the frequency response curve. This curve represents how the filter responses to frequencies between 20hz-20khz.

getFrequencyResponse (
len= 128:number

The number of values to return

) => Float32Array
The frequency response curve between 20-20kHz

immediate #

Return the current time of the Context clock without any lookAhead.


setInterval(() => {
	console.log(Tone.immediate());
}, 100);
immediate ( ) => Seconds

now #

Return the current time of the Context clock plus the lookAhead.


setInterval(() => {
	console.log(Tone.now());
}, 100);
now ( ) => Seconds

set #

Set multiple properties at once with an object.


const filter = new Tone.Filter().toDestination();
// set values using an object
filter.set({
	frequency: "C6",
	type: "highpass"
});
const player = new Tone.Player("https://tonejs.github.io/audio/berklee/Analogsynth_octaves_highmid.mp3").connect(filter);
player.autostart = true;
set ( ) => this

toDestination #

Connect the output to the context's destination node.


const osc = new Tone.Oscillator("C2").start();
osc.toDestination();
toDestination ( ) => this

toFrequency #

Convert the input to a frequency number


const gain = new Tone.Gain();
console.log(gain.toFrequency("4n"));
toFrequency (
freq:Frequency
) => Hertz

toMaster # DEPRECATED

Connect the output to the context's destination node. See toDestination

toMaster ( ) => this

toSeconds #

Convert the incoming time to seconds. This is calculated against the current Tone.Transport bpm


const gain = new Tone.Gain();
setInterval(() => console.log(gain.toSeconds("4n")), 100);
// ramp the tempo to 60 bpm over 30 seconds
Tone.getTransport().bpm.rampTo(60, 30);
toSeconds (
time?:Time
) => Seconds

toString #

Convert the class to a string


const osc = new Tone.Oscillator();
console.log(osc.toString());
toString ( ) => string

toTicks #

Convert the input time into ticks


const gain = new Tone.Gain();
console.log(gain.toTicks("4n"));
toTicks (
time?:Time | TimeClass
) => Ticks