5 Per the ISLEDISELED FAQ.
Alex Hajnal
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The microcontroller holds the
SIO_Nline high1 to indicate single-ended mode then writes output bits to theSIO_Pline by driving the line low. The signal is self-clocking. This is shown on page 12 of the datasheet:
When done sending the microntroller switches its IO pins to be inputs and the
SIO_PandSIO_Nlines are pulled high by the pull-up resistors. To send a response, the peripheral chips drive theSIO_Pline low to indicate0bits while at the same time providing a clock signal by drivingSIO_Nlow. This is shown on page 14:
Since the high and low voltages on the
SIO_PandSIO_Nlines are the same as the microcontroller's GPIO voltages (as elaborated on below), simple digital reads of the GPIO port values can be used to read the serial data stream sent from the LED modules2.
Since the parameters are from the perspective of the peripheral chip (the INLC10AQ) they are given as input voltages, not output voltages (i.e. as VIL,SE and VIH,SE rather than VOL,SE and VOL,SE). On the microcontroller end you'll need to bring the voltage down to 1.04V or lower to send a 0 bit or pull it up to between 1.08V and 5.5V23 to send a 1 bit. Likewise, the peripheral INLC10AQ will connect a line to GND to indicate a 0 or leave it pulled high to indicate a 1 (the peripheral never actively drives a line high; it goes high-impedance to indicate a 1). Per the recommended circuits shown in the datasheet (p. 27) the recommended value for the pull-up resistors is 1kΩ 34 with a maximum trace length of 15cm between the microcontroller and the first INLC10AQ45.
2 One will, of course, need to decode the serial bitstream either manually or by using FLEXIO.
3 The datasheet lists 5.5V as the maximum recommended high voltage (VCC5); 7V is the absolute maximum.
34 There should be two pull-up resistors: one between SIO_P and the microcontroller's VDD line and the other between SIO_N and VDD.
45 Per the ISLED FAQ.
The microcontroller holds the
SIO_Nline high1 to indicate single-ended mode then writes output bits to theSIO_Pline by driving the line low. The signal is self-clocking. This is shown on page 12 of the datasheet:
When done sending the microntroller switches its IO pins to be inputs and the
SIO_PandSIO_Nlines are pulled high by the pull-up resistors. To send a response, the peripheral chips drive theSIO_Pline low to indicate0bits while at the same time providing a clock signal by drivingSIO_Nlow. This is shown on page 14:
Since the parameters are from the perspective of the peripheral chip (the INLC10AQ) they are given as input voltages, not output voltages (i.e. as VIL,SE and VIH,SE rather than VOL,SE and VOL,SE). On the microcontroller end you'll need to bring the voltage down to 1.04V or lower to send a 0 bit or pull it up to between 1.08V and 5.5V2 to send a 1 bit. Likewise, the peripheral INLC10AQ will connect a line to GND to indicate a 0 or leave it pulled high to indicate a 1 (the peripheral never actively drives a line high; it goes high-impedance to indicate a 1). Per the recommended circuits shown in the datasheet (p. 27) the recommended value for the pull-up resistors is 1kΩ 3 with a maximum trace length of 15cm between the microcontroller and the first INLC10AQ4.
2 The datasheet lists 5.5V as the maximum recommended high voltage (VCC5); 7V is the absolute maximum.
3 There should be two pull-up resistors: one between SIO_P and the microcontroller's VDD line and the other between SIO_N and VDD.
4 Per the ISLED FAQ.
The microcontroller holds the
SIO_Nline high1 to indicate single-ended mode then writes output bits to theSIO_Pline by driving the line low. The signal is self-clocking. This is shown on page 12 of the datasheet:
When done sending the microntroller switches its IO pins to be inputs and the
SIO_PandSIO_Nlines are pulled high by the pull-up resistors. To send a response, the peripheral chips drive theSIO_Pline low to indicate0bits while at the same time providing a clock signal by drivingSIO_Nlow. This is shown on page 14:
Since the high and low voltages on the
SIO_PandSIO_Nlines are the same as the microcontroller's GPIO voltages (as elaborated on below), simple digital reads of the GPIO port values can be used to read the serial data stream sent from the LED modules2.
Since the parameters are from the perspective of the peripheral chip (the INLC10AQ) they are given as input voltages, not output voltages (i.e. as VIL,SE and VIH,SE rather than VOL,SE and VOL,SE). On the microcontroller end you'll need to bring the voltage down to 1.04V or lower to send a 0 bit or pull it up to between 1.08V and 5.5V3 to send a 1 bit. Likewise, the peripheral INLC10AQ will connect a line to GND to indicate a 0 or leave it pulled high to indicate a 1 (the peripheral never actively drives a line high; it goes high-impedance to indicate a 1). Per the recommended circuits shown in the datasheet (p. 27) the recommended value for the pull-up resistors is 1kΩ 4 with a maximum trace length of 15cm between the microcontroller and the first INLC10AQ5.
2 One will, of course, need to decode the serial bitstream either manually or by using FLEXIO.
3 The datasheet lists 5.5V as the maximum recommended high voltage (VCC5); 7V is the absolute maximum.
4 There should be two pull-up resistors: one between SIO_P and the microcontroller's VDD line and the other between SIO_N and VDD.
5 Per the ISLED FAQ.
Alex Hajnal
- 1.4k
- 10
- 19
At the electrical level, the protocol used for single-ended mode looks a lot like I²C or 1-wire with the lines being pulled normally-high. You could bit-bang this protocol or (if you need better performance) you could use the microcontroller's FLEXIO functionality. As shown in the INLC10AQ datasheet starting from page 12, the protocol for single-ended mode is as follows:
The microcontroller holds the
SIO_Nline high1 to indicate single-ended mode then writes output bits to theSIO_Pline by driving the line low. The signal is self-clocking. This is shown on page 12 of the datasheet:
When done sending the microntroller switches its IO pins to be inputs and the
SIO_PandSIO_Nlines are pulled high by the pull-up resistors. To send a response, the peripheral chips drive theSIO_Pline low to indicate0bits while at the same time providing a clock signal by drivingSIO_Nlow. This is shown on page 14:
For single-ended operation the VIL,SE and VIH,SE are given on page 8 of the datasheet:
Since the parameters are from the perspective of the peripheral chip (the INLC10AQ) they are given as input voltages, not output voltages (i.e. as VIL,SE and VIH,SE rather than VOL,SE and VOL,SE). On the microcontroller end you'll need to bring the voltage down to 1.04V or lower to send a 0 bit or pull it up to between 1.08V and 5.5V2 to send a 1 bit. Likewise, the peripheral INLC10AQ will connect a line to GND to indicate a 0 or leave it pulled high to indicate a 1 (the peripheral never actively drives a line high; it goes high-impedance to indicate a 1). The Per the recommended circuits shown in the datasheet doesn't recommend a particular(p. 27) the recommended value for the pull-up resistors is 1kΩ 3 but 4.7kΩ would bewith a good starting pointmaximum trace length of 15cm between the microcontroller and the first INLC10AQ4.
In a nutshell, the INLC10AQ uses a proprietary communications protocol whose electrical characteristics are described above. The low and high input and output voltages are the same as those used by the microcontroller. Typically these voltages are 0V for a 0 and 5V for a 1 though a lower signalling voltage (e.g. 3.3V or 1.8V) can be used for the latter. No VOH or VOL values are given in the datasheet for single-ended mode because the line voltages are provided at the microcontroller end (VDD via pull-up and ground, respectively), not by the INLC10AQ.
1 Ideally, the microcontroller should leave SIO_N high-impedance (i.e. as an input). The pull-up resistor will ensure that the line is normally high.
2 The datasheet lists 5.5V as the maximum recommended high voltage (VCC5); 7V is the absolute maximum.
3 There should be two pull-up resistors: one between SIO_P and the microcontroller's VDD line and the other between SIO_N and VDD.
4 Per the ISLED FAQ.
At the electrical level, the protocol used for single-ended mode looks a lot like I²C or 1-wire with the lines being pulled normally-high. You could bit-bang this protocol or (if you need better performance) you could use the microcontroller's FLEXIO functionality. As shown in the INLC10AQ datasheet starting from page 12, the protocol for single-ended mode is as follows:
The microcontroller holds the
SIO_Nline high1 to indicate single-ended mode then writes output bits to theSIO_Pline by driving the line low. The signal is self-clocking. This is shown on page 12 of the datasheet:
When done sending the microntroller switches its IO pins to be inputs and the
SIO_PandSIO_Nlines are pulled high by the pull-up resistors. To send a response, the peripheral chips drive theSIO_Pline low to indicate0bits while at the same time providing a clock signal by drivingSIO_Nlow. This is shown on page 14:
For single-ended operation the VIL,SE and VIH,SE are given on page 8 of the datasheet:
Since the parameters are from the perspective of the peripheral chip (the INLC10AQ) they are given as input voltages, not output voltages (i.e. as VIL,SE and VIH,SE rather than VOL,SE and VOL,SE). On the microcontroller end you'll need to bring the voltage down to 1.04V or lower to send a 0 bit or pull it up to between 1.08V and 5.5V2 to send a 1 bit. Likewise, the peripheral INLC10AQ will connect a line to GND to indicate a 0 or leave it pulled high to indicate a 1 (the peripheral never actively drives a line high; it goes high-impedance to indicate a 1). The datasheet doesn't recommend a particular value for the pull-up resistors3 but 4.7kΩ would be a good starting point.
In a nutshell, the INLC10AQ uses a proprietary communications protocol whose electrical characteristics are described above. The low and high input and output voltages are the same as those used by the microcontroller. Typically these voltages are 0V for a 0 and 5V for a 1 though a lower signalling voltage (e.g. 3.3V or 1.8V) can be used for the latter. No VOH or VOL values are given in the datasheet because the line voltages are provided at the microcontroller end (VDD via pull-up and ground, respectively), not by the INLC10AQ.
1 Ideally, the microcontroller should leave SIO_N high-impedance (i.e. as an input). The pull-up resistor will ensure that the line is normally high.
2 The datasheet lists 5.5V as the maximum recommended high voltage (VCC5); 7V is the absolute maximum.
3 There should be two pull-up resistors: one between SIO_P and the microcontroller's VDD line and the other between SIO_N and VDD.
At the electrical level, the protocol used for single-ended mode looks a lot like I²C or 1-wire with the lines being pulled normally-high. You could bit-bang this protocol or (if you need better performance) you could use the microcontroller's FLEXIO functionality. As shown in the INLC10AQ datasheet starting from page 12, the protocol for single-ended mode is as follows:
The microcontroller holds the
SIO_Nline high1 to indicate single-ended mode then writes output bits to theSIO_Pline by driving the line low. The signal is self-clocking. This is shown on page 12 of the datasheet:
When done sending the microntroller switches its IO pins to be inputs and the
SIO_PandSIO_Nlines are pulled high by the pull-up resistors. To send a response, the peripheral chips drive theSIO_Pline low to indicate0bits while at the same time providing a clock signal by drivingSIO_Nlow. This is shown on page 14:
For single-ended operation the VIL,SE and VIH,SE are given on page 8 of the datasheet:
Since the parameters are from the perspective of the peripheral chip (the INLC10AQ) they are given as input voltages, not output voltages (i.e. as VIL,SE and VIH,SE rather than VOL,SE and VOL,SE). On the microcontroller end you'll need to bring the voltage down to 1.04V or lower to send a 0 bit or pull it up to between 1.08V and 5.5V2 to send a 1 bit. Likewise, the peripheral INLC10AQ will connect a line to GND to indicate a 0 or leave it pulled high to indicate a 1 (the peripheral never actively drives a line high; it goes high-impedance to indicate a 1). Per the recommended circuits shown in the datasheet (p. 27) the recommended value for the pull-up resistors is 1kΩ 3 with a maximum trace length of 15cm between the microcontroller and the first INLC10AQ4.
In a nutshell, the INLC10AQ uses a proprietary communications protocol whose electrical characteristics are described above. The low and high input and output voltages are the same as those used by the microcontroller. Typically these voltages are 0V for a 0 and 5V for a 1 though a lower signalling voltage (e.g. 3.3V or 1.8V) can be used for the latter. No VOH or VOL values are given in the datasheet for single-ended mode because the line voltages are provided at the microcontroller end (VDD via pull-up and ground, respectively), not by the INLC10AQ.
1 Ideally, the microcontroller should leave SIO_N high-impedance (i.e. as an input). The pull-up resistor will ensure that the line is normally high.
2 The datasheet lists 5.5V as the maximum recommended high voltage (VCC5); 7V is the absolute maximum.
3 There should be two pull-up resistors: one between SIO_P and the microcontroller's VDD line and the other between SIO_N and VDD.
4 Per the ISLED FAQ.
Alex Hajnal
- 1.4k
- 10
- 19