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Welcome to Flux

Treat Flux like your intern. Tell it what you'd like to build and it'll get to work. You can also ask it questions, brainstorm ideas, and teach it your preferences. Learn More

Explain project
Write a project description
Find schematic issues
Create a test plan
Simulate a circuit
Prepare for Manufacturing
Component Selection Workflow
New Subsystem Wizard
Write I2C initialization code
Generate firmware skeleton
U2
U4
J1
U3
U6
VDD3V3
VDD_SPI
VDD3V3
VDD3V3
VDD3V3
VDD2V8
VBAT
VDD3V3
VDD3V3
VDD3V3
VBAT
VBAT
VDD3V3
VDD3V3
VDD3V3
VBAT
VDD3V3
VDD3V3
VBAT
VDD2V8
VBAT
VDD3V3
VDD3V3
VBAT
VDD3V3
VDD3V3
VDD3V3
VDD3V3
VDD3V3
VDD3V3
VBAT
VDD2V8
VDD3V3
VDD3V3
VDD3V3
VDD3V3
VDD3V3
VDD3V3
VDD2V8
VDD3V3
VUSB
VBAT
VDD1V8
VDD3V3
VDD3V3
VDD3V3
VUSB
VDD3V3
VDD3V3
VBAT
VBAT
VDD3V3
VDD_SPI
VDD3V3
VDD3V3
USB_D-
PWR_SDA
SPI_DI
ADC_I2S_CLK
PWR_SCL
CAM_CLK
DVP_Y2
DVP_VSYNC
PWR_SDA
CAM_PCLK
VIN2M
SPI_DI
SPI_DI
CAM_SDA
USB_D+
SPI_DI
SPI_DI
CAM_CLK
USB_D+
USB_D-
PWR_SDA
PWR_SCL
DVP_Y3
PWR_SCL
PWR_SDA
DVP_HREF
ADC_I2S_SD
ADC_GPIO1
PWR_SDA
SPI_HOLD
DVP_HREF
CAM_SCL
PWR_SCL
ADC_I2S_FSYNC(WS)
BIAS_MIC3
BIAS_MIC2
SDA
PWR_SDA
PWR_SDA
PWR_SDA
PWR_SDA
VIN2M
BIAS_MIC1
DVP_VSYNC
PWR_SCL
SCL
SDA
BIAS_MIC1
SPI_DI
SPI_DI
SPI_HOLD
DVP_Y4
PWR_SCL
PWR_SDA
PWR_SDA
SCL
VIN1M
PWR_SCL
ADC_I2S_CLK
PWR_SDA
PWR_SCL
PWR_SCL
DVP_Y5
ADC_I2S_FSYNC(WS)
ADC_GPIO1
PWR_SCL
VIN1P
PWR_SCL
VIN3P
DVP_Y6
PWR_SDA
PWR_SCL
SPI_WP
PWR_SDA
BIAS_MIC4
DVP_Y8
SDA
CAM_SDA
BIAS_MIC4
PWR_SCL
SCL
VIN4P
SPI_DI
DVP_Y6
PWR_SCL
VIN4M
SPI_WP
SPI_DI
PWR_SCL
ADC_I2S_SD
PWR_SCL
PWR_SDA
SPI_DI
VIN3M
VIN4P
PWR_SDA
ADC_I2S_CLK
SPI_DI
CAM_PCLK
PWR_SDA
CAM_SDA
VIN3P
ADC_I2S_CLK
PWR_SCL
SPI_DI
BIAS_MIC3
DVP_Y7
DVP_Y3
VIN4M
PWR_SCL
DVP_Y2
PWR_SDA
SPI_DI
VIN2P
SPI_DI
ADC_SHDNZ
PWR_SDA
SPI_DI
SPI_DI
PWR_SCL
SPI_DI
SPI_DI
PWR_SDA
CAM_SCL
DVP_Y5
PWR_SCL
SPI_DI
DVP_Y9
DVP_Y9
DVP_Y4
PWR_SCL
DVP_Y7
PWR_SCL
SPI_DI
VIN2P
SPI_DI
PWR_SDA
BIAS_MIC2
PWR_SCL
VIN3M
ADC_SHDNZ
DVP_Y8
PWR_SDA
VIN1P
VIN1M
PWR_SDA
CAM_SCL
C12
Capacitance
0.1uF
C13
Capacitance
10uF
C11
Capacitance
0.1uF
C42
Capacitance
0.1uF
C28
Capacitance
1uF
C3
Capacitance
2.2uF
C39
Capacitance
0.1uF
C37
Capacitance
TBD F
C9
Capacitance
0.1uF
C24
Capacitance
10nF
C40
Capacitance
0.1uF
C16
Capacitance
0.1uF
C5
Capacitance
2.2uF
C43
Capacitance
0.1uF
C38
Capacitance
0.1uF
C4
Capacitance
2.2uF
C31
Capacitance
1uF
C41
Capacitance
0.1uF
C1
Capacitance
2.2uF
C45
Capacitance
0.1uF
C34
Capacitance
10pF
C6
Capacitance
2.2uF
C18
Capacitance
10uF
C2
Capacitance
2.2uF
C29
Capacitance
10uF
C46
Capacitance
0.1uF
C7
Capacitance
2.2uF
C30
Capacitance
0.1uF
C14
Capacitance
4.7uF
C26
Capacitance
0.1uF
C20
Capacitance
10uF
C32
Capacitance
0.1uF
C25
Capacitance
1uF
C10
Capacitance
10uF
C44
Capacitance
2.2uF
C23
Capacitance
1uF
C17
Capacitance
0.1uF
C47
Capacitance
0.1uF
C19
Capacitance
0.1uF
C15
Capacitance
22uF
C36
Capacitance
TBD F
C22
Capacitance
2.2uF
C27
Capacitance
0.1uF
C21
Capacitance
2.2uF
C33
Capacitance
0.1uF
C35
Capacitance
10pF
C8
Capacitance
2.2uF
MTMS
J2
BLUE
DEBUG INDICATOR
BIAS
MTCK
MK4
R11
Resistance
5.1kΩ
TP-9
Test Signal
IN3-
R4
Resistance
5kΩ
R17
Resistance
240 Ω
R2
Resistance
2.2kΩ
R22
Resistance
4.7kΩ
R1
Resistance
100 Ω
MTDO
R19
Resistance
10kΩ
MTDI
R10
Resistance
10kΩ
R13
Resistance
240 Ω
TP-7
Test Signal
BIAS3
R8
Resistance
2.21kΩ
R14
Resistance
240 Ω
R6
Resistance
2.21kΩ
TP-14
R7
Resistance
2.21kΩ
R16
Resistance
150 Ω
R3
Resistance
2.2kΩ
TP-8
Test Signal
IN3+
R5
Resistance
5.1kΩ
TP-13
R15
Resistance
1.5kΩ
MK2
R12
Resistance
5.1kΩ
MK3
R23
Resistance
4.7kΩ
R9
Resistance
2.21kΩ
R18
Resistance
22 Ω
MK1
CHANNEL 1
L2
Inductance
TBD H
Q1
FB1
U5
L1
Inductance
2nH
AN1
CHANNEL 4
SW1
Q3
SW3
DC Blocking Cap forms high pass filter
Line 1
C = 1/(2πfR) = 2.2uF
Line 2
where R = 10kΩ from the Input impedance per analog input pin of PCM1864
Line 3
Line 3
CHANNEL 3
Status Blue LED
Line 1
Forward Current = 10mA
Line 2
Forward Voltage = 2.9V
Line 3
Max Reverse Current (@ VR = 5V) = 100uA
CHANNEL 2
LED1
Y1
Frequency
40MHz ±10 ppm.
U1
CAM1

To get started, talk to Flux or create a New Document.

Documents

    Documents are markdown text files which describe project goals, capture details, or even simulation outputs.

    Assets

    cookie-svgrepo-com.svg

    cookie-svgrepo-com.svg

    cookie-svgrepo-comThumbnail
    biscuit-svgrepo-com.svg

    biscuit-svgrepo-com.svg

    V4
    Biskuit AI.svg

    Biskuit AI.svg

    Biskuit AI
    V5.svg

    V5.svg

    V5
    Asset 2.svg

    Asset 2.svg

    V2
    Open-source-hardware-logo.svg

    Open-source-hardware-logo.svg

    Open-source-hardware-logo
    Outline 6.svg

    Outline 6.svg

    Outline 6

    Biskuit AI

    The Biskuit pendant is a WiFi/BLE Enabled wearable AI Diary which captures Images and sounds periodically and creates an audio visual timeline of your day so that you don't forget anything.

    Properties

    Consumer Electronics

    RoHS, REACH

    1.8

    -20 to 50

    10000

    hours

    Battery

    WiFi, Bluetooth

    Button, Display

    150hrs

    Aluminum body

    IP68

    Microphone Array

    IOS, WINDOWS, ANDROID

    The Biskuit pendant is a wearable AI transcription assistant. An innovative device designed to seamlessly integrate into daily activities, providing real-time transcription and note-taking capabilities. Combining advanced AI algorithms with state-of-the-art hardware components, the device offers crystal clear audio recording, durable construction, and convenient features such as cloud synchronization, weatherproofing, and a vibrant display for animations and expressions.

    Pricing & Availability

    Distributor

    Qty 1

    Arrow

    $3.50–$4.10

    Digi-Key

    $7.98–$8.63

    LCSC

    $7.47–$7.49

    Mouser

    $14.51

    Verical

    $0.68–$4.87

    Controls