BarGraph 2 Click Board

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BarGraph 2 Click Board

Product Description

The BarGraph 2 Click Board™ is a 10-segment bar graph display click, which uses a high-quality, multicolor bar graph LED display. The bar graph display is a very popular device for displaying various properties, whether it be an audio level, current/voltage level, position of the encoder, and generally any property that can be displayed in a form of a bar graph. The segments of the on-board bar graph LED display are bright and uniformly colored, providing a nice and clean visual feedback.

Each segment is composed of green and red colored LEDs, making it possible to have various important states marked in different color. It can use green, red, and a combination of these two - resulting in having amber colored segments. For example, a VU-meter can have its highest values shown in red (peaks), middle in yellow and the lowest in green; the position of the encoder can be marked with a single red segment, on a green background, and so on. The bar graph display light intensity can be dimmed, by applying a PWM signal. The BarGraph 2 Click Board™ offers a lot of possibilities for building a custom bar graph applications - VU meters, status indicators, various types of gauges, and similar.

How Does The BarGraph 2 Click Board™ Work?

When it comes to driving an array of LED segments, using so-called shift register ICs is almost unavoidable. Due to their ability to be connected in cascades, they are commonly used for any type of LED segment array. The BarGraph 2 Click Board™ uses three 74HC595, 8-bit serial-in, parallel-out shift registers with output latches, from Texas Instruments to drive the XGURUGX10D, a 10 segment bar graph array, from SunLED. The 74HC595 ICs are comprised of a D-type internal storage register, as well as the serial-to-parallel shift register, both 8 bits wide. Each of these registers has its own clock line, making it possible to clock in the desired data, and then clock it out to the parallel output pins.

The XGURUGX10D bar graph LED array has 10 dual-color segments. Each segment contains red and green LED, thus having two anodes and one cathode per segment. This results in having 20 LED anodes and 10 LED cathodes, in total. The XGURUGX10D bar graph display is connected as a common cathode type display, meaning that all LED cathodes are routed to a single point. The LED cathode line is connected to the drain of the N channel MOSFET, while its source is connected to the GND. Driving this MOSFET via its gate through the PWM pin of the mikroBUS™ allows dimming of the LED segments. By changing the duty cycle of the PWM signal, it is possible to change the brightness of the XGURUGX10D bar graph display.

The BarGraph 2 Click Board™ communicates with the host MCU via the SPI interface, routed to the mikroBUS™ MOSI, MISO and SCK pins, labeled as SDI, SDO and SCK on this Click board™, respectively. Three bytes of information (24 bits in total) are pushed through the serial data input pin (DS) of the first 74HC595 IC, routed to the SDI pin. The 74HC595 construction is such that after receiving 8 bits, clocking in one more bit will shift the existing 8 bits by one place, overflowing the last bit to the Q7S output pin, shifting it out that way. Since the Q7S of the first 74HC595 is connected to the DS pin of the second 74HC595 (and the Q7S of the second IC is connected to the DS pin of the third 74HC595 IC), clocking in 24 bits to the first 74HC595 IC will fill up all three ICs.

It is worth mentioning that the Q7S of the last 74HC595 IC is routed to the MISO pin of the mikroBUS™, labeled as the SDO, allowing connection of multiple devices in cascade, building more complex setups. Adding more devices in cascade would require more 8bit words to be clocked in the first 74HC595 IC.

The first 10 bits are used to control all the green LEDs of the segments. The second 10 bits are used to control all the red LEDs of the segments. Since the MCU usually clocks out no less than 8 bits through the SPI per cycle, the last 4 bits of the total of 24 bits, are disregarded. When the data has been clocked in, the SPI clock should stop and the CS pin should be driven to a HIGH logic level. The CS pin of the mikroBUS™ is routed to the STCP pin of the 74HC595 ICs, and it is labeled as LT. A rising edge on the STCP input pins of the 74HC595 ICs will latch the data from their internal storage registers to the output pins, polarizing the connected bar graph segment anodes. The STCP pin is pulled to a LOW logic level by the onboard resistor.

The #MR pin is used to clear the data in the internal storage register of the ICs. The LOW logic level on this pin will clear the content of this storage register, but it will not turn off the outputs which are already activated. The #MR pin is routed to the RST pin of the mikroBUS™, labeled as MR and it is pulled to a HIGH logic level by the onboard resistor.

The BarGraph 2 Click Board™ is able to work with both 3.3V and 5V MCUs. The operating voltage selection can be done via the onboard SMD jumper, labeled as VCC SEL.

SPECIFICATIONS

PINOUT DIAGRAM

This table shows how the pinout on  the BarGraph 2 Click Board™ corresponds to the pinout on the mikroBUS™ socket (the latter shown in the two middle columns).

Notes	Pin					Pin	Notes
NC	1	AN	PWM	16	PWM	Dimming PWM IN
Clear input IN	MR	2	RST	INT	15	NC
Latch input IN	LT	3	CS	RX	14	NC
SPI Clock	SCK	4	SCK	TX	13	NC
SPI Data OUT	SDO	5	MISO	SCL	12	NC
SPI Data IN	SDI	6	MOSI	SDA	11	NC
Power supply	+3.3V	7	3.3V	5V	10	+5V	Power supply
Ground	GND	8	GND	GND	9	GND	Ground

ONBOARD SETTINGS AND INDICATORS

Software Support

void applicationTask()
{

  for (i = 0; i < 11; i++)
  {
   bargraph2_set(i);
   Delay_ms(100);
  }

}

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