From b959f1cdc5e9f150d6222b1e86eebd166f53eed1 Mon Sep 17 00:00:00 2001 From: Phil Howard Date: Fri, 3 Jul 2020 22:20:00 +0100 Subject: [PATCH] Update ReSpeaker 4 mic --- src/de/translate/respeaker-4-mic-linear-array.md | 6 ++---- src/en/overlay/respeaker-4-mic-linear-array.md | 6 ++---- src/es/translate/respeaker-4-mic-linear-array.md | 6 ++---- src/fr/translate/respeaker-4-mic-linear-array.md | 6 ++---- src/it/translate/respeaker-4-mic-linear-array.md | 6 ++---- src/tr/translate/respeaker-4-mic-linear-array.md | 6 ++---- 6 files changed, 12 insertions(+), 24 deletions(-) diff --git a/src/de/translate/respeaker-4-mic-linear-array.md b/src/de/translate/respeaker-4-mic-linear-array.md index 4de0f49..19d32a0 100644 --- a/src/de/translate/respeaker-4-mic-linear-array.md +++ b/src/de/translate/respeaker-4-mic-linear-array.md @@ -57,14 +57,12 @@ pin: --> #ReSpeaker 4 Mic Linear Array -This HAT comes with 4 microphones and designed for AI and voice applications. That means you can build a more powerful and flexible voice product with Raspberry Pi which can integrate Amazon Alexa Voice -Service, Google Assistant, and so on. It consists of two boards, one is voice accessory HAT, another is four microphones linear array. It supports 8 input & 8 output channels in Raspbian system. The first 6 input channel for microphone recording(only first 4 input channels are valid capture data), rest of 2 input channel are echo channel of playback. The first 2 output channel for playing, rest of 6 output channel are dummy. +This HAT comes with 4 microphones and is designed for AI and voice applications; integration with Amazon Alexa Voice, Google Assistant, and so on. It consists of two boards: the voice accessory HAT, and the four microphone linear array. It supports 8 input and 8 output channels in Raspbian/Raspberry Pi OS. The first 6 input channels are for microphone recording. Only the first 4 input channels are valid capture data, the remaining 2 input channels are an echo channel for playback. The first 2 output channels output stereo audio, the remaining 6 are unused. * MIC: 4 Microphones -* RGB LED: 12 APA102 RGB LEDs, connected to SPI interface * AC108: 2 4-channels ADC * AC101: a 2-channels DAC -* Raspberry Pi 40-Pin Headers: support Raspberry Pi Zero, Raspberry Pi 1 B+, Raspberry Pi 2 B and Raspberry Pi 3 B +* Raspberry Pi 40-Pin Header * I2C: Grove I2C port, connected to I2C-1 * GP12: Grove digital port, connected to GPIO12 & GPIO13 * JST 2.0 SPEAKER OUT: for connecting speaker with JST 2.0 connector diff --git a/src/en/overlay/respeaker-4-mic-linear-array.md b/src/en/overlay/respeaker-4-mic-linear-array.md index 4de0f49..19d32a0 100644 --- a/src/en/overlay/respeaker-4-mic-linear-array.md +++ b/src/en/overlay/respeaker-4-mic-linear-array.md @@ -57,14 +57,12 @@ pin: --> #ReSpeaker 4 Mic Linear Array -This HAT comes with 4 microphones and designed for AI and voice applications. That means you can build a more powerful and flexible voice product with Raspberry Pi which can integrate Amazon Alexa Voice -Service, Google Assistant, and so on. It consists of two boards, one is voice accessory HAT, another is four microphones linear array. It supports 8 input & 8 output channels in Raspbian system. The first 6 input channel for microphone recording(only first 4 input channels are valid capture data), rest of 2 input channel are echo channel of playback. The first 2 output channel for playing, rest of 6 output channel are dummy. +This HAT comes with 4 microphones and is designed for AI and voice applications; integration with Amazon Alexa Voice, Google Assistant, and so on. It consists of two boards: the voice accessory HAT, and the four microphone linear array. It supports 8 input and 8 output channels in Raspbian/Raspberry Pi OS. The first 6 input channels are for microphone recording. Only the first 4 input channels are valid capture data, the remaining 2 input channels are an echo channel for playback. The first 2 output channels output stereo audio, the remaining 6 are unused. * MIC: 4 Microphones -* RGB LED: 12 APA102 RGB LEDs, connected to SPI interface * AC108: 2 4-channels ADC * AC101: a 2-channels DAC -* Raspberry Pi 40-Pin Headers: support Raspberry Pi Zero, Raspberry Pi 1 B+, Raspberry Pi 2 B and Raspberry Pi 3 B +* Raspberry Pi 40-Pin Header * I2C: Grove I2C port, connected to I2C-1 * GP12: Grove digital port, connected to GPIO12 & GPIO13 * JST 2.0 SPEAKER OUT: for connecting speaker with JST 2.0 connector diff --git a/src/es/translate/respeaker-4-mic-linear-array.md b/src/es/translate/respeaker-4-mic-linear-array.md index 4de0f49..19d32a0 100644 --- a/src/es/translate/respeaker-4-mic-linear-array.md +++ b/src/es/translate/respeaker-4-mic-linear-array.md @@ -57,14 +57,12 @@ pin: --> #ReSpeaker 4 Mic Linear Array -This HAT comes with 4 microphones and designed for AI and voice applications. That means you can build a more powerful and flexible voice product with Raspberry Pi which can integrate Amazon Alexa Voice -Service, Google Assistant, and so on. It consists of two boards, one is voice accessory HAT, another is four microphones linear array. It supports 8 input & 8 output channels in Raspbian system. The first 6 input channel for microphone recording(only first 4 input channels are valid capture data), rest of 2 input channel are echo channel of playback. The first 2 output channel for playing, rest of 6 output channel are dummy. +This HAT comes with 4 microphones and is designed for AI and voice applications; integration with Amazon Alexa Voice, Google Assistant, and so on. It consists of two boards: the voice accessory HAT, and the four microphone linear array. It supports 8 input and 8 output channels in Raspbian/Raspberry Pi OS. The first 6 input channels are for microphone recording. Only the first 4 input channels are valid capture data, the remaining 2 input channels are an echo channel for playback. The first 2 output channels output stereo audio, the remaining 6 are unused. * MIC: 4 Microphones -* RGB LED: 12 APA102 RGB LEDs, connected to SPI interface * AC108: 2 4-channels ADC * AC101: a 2-channels DAC -* Raspberry Pi 40-Pin Headers: support Raspberry Pi Zero, Raspberry Pi 1 B+, Raspberry Pi 2 B and Raspberry Pi 3 B +* Raspberry Pi 40-Pin Header * I2C: Grove I2C port, connected to I2C-1 * GP12: Grove digital port, connected to GPIO12 & GPIO13 * JST 2.0 SPEAKER OUT: for connecting speaker with JST 2.0 connector diff --git a/src/fr/translate/respeaker-4-mic-linear-array.md b/src/fr/translate/respeaker-4-mic-linear-array.md index 4de0f49..19d32a0 100644 --- a/src/fr/translate/respeaker-4-mic-linear-array.md +++ b/src/fr/translate/respeaker-4-mic-linear-array.md @@ -57,14 +57,12 @@ pin: --> #ReSpeaker 4 Mic Linear Array -This HAT comes with 4 microphones and designed for AI and voice applications. That means you can build a more powerful and flexible voice product with Raspberry Pi which can integrate Amazon Alexa Voice -Service, Google Assistant, and so on. It consists of two boards, one is voice accessory HAT, another is four microphones linear array. It supports 8 input & 8 output channels in Raspbian system. The first 6 input channel for microphone recording(only first 4 input channels are valid capture data), rest of 2 input channel are echo channel of playback. The first 2 output channel for playing, rest of 6 output channel are dummy. +This HAT comes with 4 microphones and is designed for AI and voice applications; integration with Amazon Alexa Voice, Google Assistant, and so on. It consists of two boards: the voice accessory HAT, and the four microphone linear array. It supports 8 input and 8 output channels in Raspbian/Raspberry Pi OS. The first 6 input channels are for microphone recording. Only the first 4 input channels are valid capture data, the remaining 2 input channels are an echo channel for playback. The first 2 output channels output stereo audio, the remaining 6 are unused. * MIC: 4 Microphones -* RGB LED: 12 APA102 RGB LEDs, connected to SPI interface * AC108: 2 4-channels ADC * AC101: a 2-channels DAC -* Raspberry Pi 40-Pin Headers: support Raspberry Pi Zero, Raspberry Pi 1 B+, Raspberry Pi 2 B and Raspberry Pi 3 B +* Raspberry Pi 40-Pin Header * I2C: Grove I2C port, connected to I2C-1 * GP12: Grove digital port, connected to GPIO12 & GPIO13 * JST 2.0 SPEAKER OUT: for connecting speaker with JST 2.0 connector diff --git a/src/it/translate/respeaker-4-mic-linear-array.md b/src/it/translate/respeaker-4-mic-linear-array.md index 4de0f49..19d32a0 100644 --- a/src/it/translate/respeaker-4-mic-linear-array.md +++ b/src/it/translate/respeaker-4-mic-linear-array.md @@ -57,14 +57,12 @@ pin: --> #ReSpeaker 4 Mic Linear Array -This HAT comes with 4 microphones and designed for AI and voice applications. That means you can build a more powerful and flexible voice product with Raspberry Pi which can integrate Amazon Alexa Voice -Service, Google Assistant, and so on. It consists of two boards, one is voice accessory HAT, another is four microphones linear array. It supports 8 input & 8 output channels in Raspbian system. The first 6 input channel for microphone recording(only first 4 input channels are valid capture data), rest of 2 input channel are echo channel of playback. The first 2 output channel for playing, rest of 6 output channel are dummy. +This HAT comes with 4 microphones and is designed for AI and voice applications; integration with Amazon Alexa Voice, Google Assistant, and so on. It consists of two boards: the voice accessory HAT, and the four microphone linear array. It supports 8 input and 8 output channels in Raspbian/Raspberry Pi OS. The first 6 input channels are for microphone recording. Only the first 4 input channels are valid capture data, the remaining 2 input channels are an echo channel for playback. The first 2 output channels output stereo audio, the remaining 6 are unused. * MIC: 4 Microphones -* RGB LED: 12 APA102 RGB LEDs, connected to SPI interface * AC108: 2 4-channels ADC * AC101: a 2-channels DAC -* Raspberry Pi 40-Pin Headers: support Raspberry Pi Zero, Raspberry Pi 1 B+, Raspberry Pi 2 B and Raspberry Pi 3 B +* Raspberry Pi 40-Pin Header * I2C: Grove I2C port, connected to I2C-1 * GP12: Grove digital port, connected to GPIO12 & GPIO13 * JST 2.0 SPEAKER OUT: for connecting speaker with JST 2.0 connector diff --git a/src/tr/translate/respeaker-4-mic-linear-array.md b/src/tr/translate/respeaker-4-mic-linear-array.md index 4de0f49..19d32a0 100644 --- a/src/tr/translate/respeaker-4-mic-linear-array.md +++ b/src/tr/translate/respeaker-4-mic-linear-array.md @@ -57,14 +57,12 @@ pin: --> #ReSpeaker 4 Mic Linear Array -This HAT comes with 4 microphones and designed for AI and voice applications. That means you can build a more powerful and flexible voice product with Raspberry Pi which can integrate Amazon Alexa Voice -Service, Google Assistant, and so on. It consists of two boards, one is voice accessory HAT, another is four microphones linear array. It supports 8 input & 8 output channels in Raspbian system. The first 6 input channel for microphone recording(only first 4 input channels are valid capture data), rest of 2 input channel are echo channel of playback. The first 2 output channel for playing, rest of 6 output channel are dummy. +This HAT comes with 4 microphones and is designed for AI and voice applications; integration with Amazon Alexa Voice, Google Assistant, and so on. It consists of two boards: the voice accessory HAT, and the four microphone linear array. It supports 8 input and 8 output channels in Raspbian/Raspberry Pi OS. The first 6 input channels are for microphone recording. Only the first 4 input channels are valid capture data, the remaining 2 input channels are an echo channel for playback. The first 2 output channels output stereo audio, the remaining 6 are unused. * MIC: 4 Microphones -* RGB LED: 12 APA102 RGB LEDs, connected to SPI interface * AC108: 2 4-channels ADC * AC101: a 2-channels DAC -* Raspberry Pi 40-Pin Headers: support Raspberry Pi Zero, Raspberry Pi 1 B+, Raspberry Pi 2 B and Raspberry Pi 3 B +* Raspberry Pi 40-Pin Header * I2C: Grove I2C port, connected to I2C-1 * GP12: Grove digital port, connected to GPIO12 & GPIO13 * JST 2.0 SPEAKER OUT: for connecting speaker with JST 2.0 connector