KMSC8122TMP6400 Freescale Semiconductor, KMSC8122TMP6400 Datasheet - Page 16

KMSC8122TMP6400

Manufacturer Part Number

KMSC8122TMP6400

Description

DSP 16BIT QUAD CORE 431-FCPBGA

Manufacturer

Freescale Semiconductor

Series

MSC81xx StarCorer

Type

SC140 Corer

Datasheets

1.MSC8122TVT6400V.pdf (48 pages)

2.MSC8122TVT6400V.pdf (8 pages)

Specifications of KMSC8122TMP6400

Interface

DSI, Ethernet, RS-232

Clock Rate

400MHz

Non-volatile Memory

External

On-chip Ram

1.436MB

Voltage - I/o

3.30V

Voltage - Core

1.20V

Operating Temperature

-40°C ~ 105°C

Mounting Type

Surface Mount

Package / Case

431-FCPBGA

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

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Electrical Characteristics

2.5

The following sections include illustrations and tables of clock diagrams, signals, and parallel I/O outputs and inputs. When

systems such as DSP farms are developed using the DSI, use a device loading of 4 pF per pin. AC timings are based on a 20 pF

load, except where noted otherwise, and a 50 Ω transmission line. For loads smaller than 20 pF, subtract 0.06 ns per pF down

to 10 pF load. For loads larger than 20 pF, add 0.06 ns for SIU/Ethernet/DSI delay and 0.07 ns for GPIO/TDM/timer delay.

When calculating overall loading, also consider additional RC delay.

2.5.1

2.5.2

Starting the device requires coordination among several input sequences including clocking, reset, and power. Section 2.5.3

describes the clocking characteristics. Section 2.5.4 describes the reset and power-up characteristics. You must use the

following guidelines when starting up an MSC8122 device:

Note:

The following figures show acceptable start-up sequence examples. Figure 6 shows a sequence in which

raised together. Figure 7 shows a sequence in which

System bus

Memory controller

Parallel I/O

Note:

•

PORESET

If possible, bring up the

levels and then the

CLKIN

deassertion to guarantee correct device operation (see Figure 6 and Figure 7).

CLKIN

See Section 3.1 for start-up sequencing recommendations and Section 3.2 for power supply design

recommendations.

These are typical values at 65°C. The impedance may vary by ±25% depending on device process and operating temperature.

AC Timings

Output Buffer Impedances

Start-Up Timing

should start toggling at least 16 cycles (starting after

must not be pulled high during

and

Output Buffers

TRST

GND – 0.3 V

GND – 0.7 V

DDH

Figure 5. Overshoot/Undershoot Voltage for V

DDH

must be asserted externally for the duration of the power-up sequence. See Table 11 for timing.

MSC8122 Quad Digital Signal Processor Data Sheet, Rev. 16

DDH

levels (see Figure 7).

+ 17%

+ 8%

GND

and

DDH

Table 6. Output Buffer Impedances

DDH

levels together. For designs with separate power supplies, bring up the

DDH

power-up.

DDH

Must not exceed 10% of clock period

is raised after

CLKIN

DDH

can toggle during this period.

reaches its nominal level) before

and

CLKIN

Typical Impedance (Ω)

and V

begins to toggle as

Freescale Semiconductor

PORESET

and

DDH

rises.

DDH

are

KMSC8122TMP6400 Freescale Semiconductor, KMSC8122TMP6400 Datasheet - Page 16

KMSC8122TMP6400

Specifications of KMSC8122TMP6400

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