Header and Jumpers Blocks | Freescale Semiconductor MC68HC908QT2

Freescale Semiconductor, Inc.

Operational Description

Header and Jumpers Blocks

2.4 Header and Jumpers Blocks

There is one 16-pin header (2 x 8-pin), J1, and four 2-pin jumper blocks,

JP1–JP4, on the PC board. See Figure 2-1for their locations on the PC board.

The header and jumper functions are described as follows.

J1:	Jumper block J1 is used to program the MC68HC908QT2, located in
	the center of the PC board. The connections to this board follow the
	standard MON08 connector scheme. It is also used to put the ASB520
	system into test mode. In a production environment, J1 could be
	replaced by a “bed of nails” test fixture to reduce PC board parts costs.
JP1:	Jumper block JP1 is on the PC board measure the current consumed
	by the microcontroller. Its primary purpose is to measure stop current of
	the microcontroller. A small trace on the bottom of the PC board must
	be cut to use this feature. When using this feature to measure stop
	current you should remove shorting jumper JP2. Removing the shunt
	from JP2 removes the system’s 470 ∝F bulk capacitor. Removing that
	capacitor will improve accuracy of the current measurement, as large
	capacitors have leakage current associated with them. Select the
	lowest voltage rating bulk capacitor for your circuit as possible because
	lower voltage rated ones tend to have less leakage than higher voltage
	ones for a given capacitance value.
JP2:	Jumper block JP2 disconnects the bulk capacitor during FLASH
	programming and optionally during stop current monitoring. The value
	of the capacitor is large enough to cause power switching issues when
	using the Cyclone programmer. During the programming procedure,
	the Cyclone programmer cycles power to the target PC board. Large
	value bulk capacitors greater than approximately 100 ∝F present
	excessive currents to the Cyclone programmer and interfere with the
	POR circuit of the target’s microcontroller as voltage on larger
	capacitance devices do not discharge fast enough during voltage
	cycling.
	The purpose for the bulk capacitor is two fold: First is tends to help lower
	the effects of the battery’s internal resistance during periods of high
	current demands while the IR LED is being modulated. This is a
	particular benefit toward the battery’s end of life period, when its internal
	resistance is increasing. Second, if a system uses RAM to store user
	information, the bulk capacitor will retain voltage to the microcontroller
	during battery changes.
JP3:	Jumper block JP3 disconnects pullup resistor, R9, during FLASH
	programming.
JP4:	Jumper block JP4 disconnects LED drive circuitry during FLASH
	programming.

Using the ASB520 MC68HC908QT2 Based Infrared Remote Control Reference PC Board		DRM045

MOTOROLA	Operational Description	13
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MC68HC908QT2, M68HC08 specifications

Freescale Semiconductor, known for its innovative solutions in the field of embedded systems, developed the M68HC08 microcontroller family, which includes the MC68HC908QT2. This 8-bit microcontroller is engineered to meet the demands of diverse applications, including automotive, industrial, and consumer electronics.

The MC68HC908QT2 is designed around Freescale’s M68HC08 core, which is renowned for its efficient and reliable performance. This microcontroller integrates a powerful instruction set, enabling developers to create high-performance applications with relatively low power consumption. The device operates at a clock frequency of up to 3 MHz, which is adequate for various control tasks.

One of the key features of the MC68HC908QT2 is its memory architecture. It includes a 2 KB Flash memory for program storage, representing a significant advantage for developers requiring non-volatile memory. Additionally, it encompasses 128 bytes of EEPROM memory, allowing for data retention even after power loss. The microcontroller also has 256 bytes of RAM for efficient data manipulation during operation.

In terms of input/output capabilities, the MC68HC908QT2 supports a variety of interfacing options. The microcontroller features up to 20 general-purpose I/O pins for flexibility in connecting with peripheral devices. Additionally, it provides multiple analog-to-digital converters (ADC) and timers that facilitate efficient analog signal processing and precise control through timing functions.

The architecture of the MC68HC908QT2 also incorporates sophisticated on-chip peripherals, enhancing its functionality. These peripherals include PWM (Pulse Width Modulation) outputs, which are essential for applications requiring motor control and other precise duty cycle processes. The integrated watchdog timer ensures reliable operation by resetting the system in the event of an application failure.

Moreover, the MC68HC908QT2 is equipped with an efficient power management system, enabling operation in a low-power mode, ideal for battery-powered applications. This microcontroller is packaged in a compact 28-pin dual in-line package (DIP), making it suitable for space-constrained designs.

In summary, the Freescale Semiconductor MC68HC908QT2 microcontroller is distinguished by its robust performance, extensive memory options, and versatile I/O capabilities. Its advanced features, including built-in timers, ADC, and a power management system, make it an exceptional choice for developers seeking to implement reliable and efficient embedded solutions. With its comprehensive architecture, the MC68HC908QT2 remains a popular choice in the landscape of 8-bit microcontrollers.