###### This page got a curve for everyone.

You want to see the curves? Frequency, impedance and polar response charts for all products linked here.

All loudspeaker measurements are made in anechoic chamber, measured at 2.83v/1m. The subwoofers are measured at ground plane to get realistic frequency response, measured at 2.83v/1m.

Disclaimer: These measurements does not represent the actual response you will get in-room. In your room the speakers will be affected by room gain and surrounding objects/walls causing the bass levels to be elevated as well as the overall frequencies to be affected.

## 1723 TOWER THX

##### Graphs & Data

## FREQUENCY RESPONSE

Frequency response does not reflect maximum output but shows its true response in a anechoic chamber. Typically you will see an elevated response in the bass response below 40Hz in room due to room gain, which can add around 6dB pr. octave under 40Hz depending on the size of your room.

## POLAR RESPONSE

The charts display frequency response measured at different angles, the sum of which is referred to as power response. Much scientific research has been undertaken on this subject and a linear power response has proven a substantial impact on the overall sound, because the frequency response is more even in all directions. This means an Arendal Sound speaker will be more tolerant of differences in room shape, size, construction and materials.

## IMPEDANCE RESPONSE

The impedance charts are electrical measurements of the loudspeaker’s resistance vs frequency.

## 1723 TOWER S THX

##### Graphs & Data

## FREQUENCY RESPONSE

Frequency response does not reflect maximum output but shows its true response in a anechoic chamber. Typically you will see an elevated response in the bass response below 40Hz in room due to room gain, which can add around 6dB pr. octave under 40Hz depending on the size of your room.

## POLAR RESPONSE

The charts display frequency response measured at different angles, the sum of which is referred to as power response. Much scientific research has been undertaken on this subject and a linear power response has proven a substantial impact on the overall sound, because the frequency response is more even in all directions. This means an Arendal Sound speaker will be more tolerant of differences in room shape, size, construction and materials.

## IMPEDANCE RESPONSE

The impedance charts are electrical measurements of the loudspeaker’s resistance vs frequency.

## 1723 MONITOR THX

##### Graphs & Data

## FREQUENCY RESPONSE

Frequency response does not reflect maximum output but shows its true response in a anechoic chamber. Typically you will see an elevated response in the bass response below 40Hz in room due to room gain, which can add around 6dB pr. octave under 40Hz depending on the size of your room.

## POLAR RESPONSE

The charts display frequency response measured at different angles, the sum of which is referred to as power response. Much scientific research has been undertaken on this subject and a linear power response has proven a substantial impact on the overall sound, because the frequency response is more even in all directions. This means an Arendal Sound speaker will be more tolerant of differences in room shape, size, construction and materials.

## IMPEDANCE RESPONSE

The impedance charts are electrical measurements of the loudspeaker’s resistance vs frequency.

## 1723 MONITOR S THX

##### Graphs & Data

## FREQUENCY RESPONSE

## POLAR RESPONSE

## IMPEDANCE RESPONSE

The impedance charts are electrical measurements of the loudspeaker’s resistance vs frequency.

## 1723 BOOKSHELF S THX

##### Graphs & Data

## FREQUENCY RESPONSE

## POLAR RESPONSE

## IMPEDANCE RESPONSE

The impedance charts are electrical measurements of the loudspeaker’s resistance vs frequency.

## 1723 CENTER THX

##### Graphs & Data

## FREQUENCY RESPONSE

## POLAR RESPONSE

## IMPEDANCE RESPONSE

The impedance charts are electrical measurements of the loudspeaker’s resistance vs frequency.

## 1723 CENTER S THX

##### Graphs & Data

## FREQUENCY RESPONSE

## POLAR RESPONSE

## IMPEDANCE RESPONSE

The impedance charts are electrical measurements of the loudspeaker’s resistance vs frequency.

## 1723 SURROUND THX

##### Graphs & Data

## FREQUENCY RESPONSE

Note: Side drivers are disabled for the response data.

## POLAR RESPONSE

## IMPEDANCE RESPONSE

The impedance charts are electrical measurements of the loudspeaker’s resistance vs frequency.

## 1723 SURROUND S THX

##### Graphs & Data

## FREQUENCY RESPONSE

## POLAR RESPONSE

## IMPEDANCE RESPONSE

The impedance charts are electrical measurements of the loudspeaker’s resistance vs frequency.

## 1723 SUBWOOFER 1

##### Graphs & Data

## FREQUENCY RESPONSE

Frequency response does not reflect maximum output but shows its true response on a ground plane measurement. Typically you will see an elevated response in the bass response below 40Hz in room due to room gain, which can add around 6dB pr. octave under 40Hz depending on the size of your room.

EQ1 20-160Hz (+/-3dB)

EQ2 34-160Hz (+/-3dB)

## 1723 SUBWOOFER 1.5

##### Graphs & Data

## FREQUENCY RESPONSE

Frequency response does not reflect maximum output but shows its true response on a ground plane measurement. Typically you will see an elevated response in the bass response below 40Hz in room due to room gain, which can add around 6dB pr. octave under 40Hz depending on the size of your room.

EQ1 sealed 20-160Hz (+/-3dB)

EQ1 vented 18-160Hz (+/-3dB)

EQ2 sealed 24-160Hz (+/-3dB)

EQ2 vented 22-160Hz (+/-3dB)

## 1723 SUBWOOFER 2

##### Graphs & Data

## FREQUENCY RESPONSE

Frequency response does not reflect maximum output but shows its true response on a ground plane measurement. Typically you will see an elevated response in the bass response below 40Hz in room due to room gain, which can add around 6dB pr. octave under 40Hz depending on the size of your room.

EQ1 20-160Hz (+/-3dB)

EQ2 32-160Hz (+/-3dB)

## 1723 SUBWOOFER 3

##### Graphs & Data

## FREQUENCY RESPONSE

EQ1 sealed 20-160Hz (+/-3dB)

EQ1 vented 17-160Hz (+/-3dB)

EQ2 sealed 28-160Hz (+/-3dB)

EQ2 vented 25-160Hz (+/-3dB)

## 1961 SUBWOOFER 1S

##### Graphs & Data

## FREQUENCY RESPONSE

EQ1 19-160Hz (+/-3dB)

EQ2 26-160Hz (+/-3dB)

## 1961 SUBWOOFER 1V

##### Graphs & Data

## FREQUENCY RESPONSE

EQ1 16-200Hz (+/-3dB)

EQ2 20-200Hz (+/-3dB)