MC9S12P32CFT Freescale Semiconductor, MC9S12P32CFT Datasheet - Page 143

MC9S12P32CFT

Manufacturer Part Number

MC9S12P32CFT

Description

MCU 16BIT 32K FLASH 48-QFN

Manufacturer

Freescale Semiconductor

Series

HCS12r

Datasheet

1.S9S12P32J0MFT.pdf (566 pages)

Specifications of MC9S12P32CFT

Core Processor

HCS12

Core Size

16-Bit

Speed

32MHz

Connectivity

CAN, SCI, SPI

Peripherals

LVD, POR, PWM, WDT

Number Of I /o

Program Memory Size

32KB (32K x 8)

Program Memory Type

FLASH

Eeprom Size

4K x 8

Ram Size

2K x 8

Voltage - Supply (vcc/vdd)

1.72 V ~ 5.5 V

Data Converters

A/D 10x12b

Oscillator Type

Internal

Operating Temperature

-40°C ~ 85°C

Package / Case

48-QFN Exposed Pad

Processor Series

S12P

Core

HCS12

3rd Party Development Tools

EWHCS12

Development Tools By Supplier

KIT33812ECUEVME, DEMO9S12PFAME

Package

48QFN EP

Family Name

HCS12

Maximum Speed

32 MHz

Operating Supply Voltage

3.3|5 V

Data Bus Width

16 Bit

Interface Type

CAN/SCI/SPI

On-chip Adc

10-chx12-bit

Number Of Timers

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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5.4.6

The BDM communicates with external devices serially via the BKGD pin. During reset, this pin is a mode

select input which selects between normal and special modes of operation. After reset, this pin becomes

the dedicated serial interface pin for the BDM.

The BDM serial interface is timed based on the VCO clock (please refer to the CPMU Block Guide for

more details), which gets divided by 8.

explanation.

The BDM serial interface uses a clocking scheme in which the external host generates a falling edge on

the BKGD pin to indicate the start of each bit time. This falling edge is sent for every bit whether data is

transmitted or received. Data is transferred most signiﬁcant bit (MSB) ﬁrst at 16 target clock cycles per

bit. The interface times out if 512 clock cycles occur between falling edges from the host.

The BKGD pin is a pseudo open-drain pin and has an weak on-chip active pull-up that is enabled at all

times. It is assumed that there is an external pull-up and that drivers connected to BKGD do not typically

drive the high level. Since R-C rise time could be unacceptably long, the target system and host provide

brief driven-high (speedup) pulses to drive BKGD to a logic 1. The source of this speedup pulse is the host

for transmit cases and the target for receive cases.

The timing for host-to-target is shown in

Figure

the host and target are operating from separate clocks, it can take the target system up to one full clock

cycle to recognize this edge. The target measures delays from this perceived start of the bit time while the

host measures delays from the point it actually drove BKGD low to start the bit up to one target clock cycle

Freescale Semiconductor

Hardware

Firmware

5-9. All four cases begin when the host drives the BKGD pin low to generate a falling edge. Since

TRACE

Read

Write

GO,

BDM Serial Interface

AT ~16 TC/Bit

Command

8 Bits

DELAY

48-BC

76-BC

Delay

AT ~16 TC/Bit

S12P-Family Reference Manual, Rev. 1.13

Figure 5-6. BDM Command Structure

Address

16 Bits

Data

Command

This clock will be referred to as the target clock in the following

Data

Figure 5-7

DELAY

36-BC

and that of target-to-host in

150-BC

Delay

Command

Data

AT ~16 TC/Bit

16 Bits

Background Debug Module (S12SBDMV1)

Data

BC = Bus Clock Cycles

TC = Target Clock Cycles

150-BC

Delay

Figure 5-8

Command

and

143

MC9S12P32CFT Freescale Semiconductor, MC9S12P32CFT Datasheet - Page 143

MC9S12P32CFT

Specifications of MC9S12P32CFT

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