DSP56301PW80B1 Freescale Semiconductor, DSP56301PW80B1 Datasheet - Page 106

DSP56301PW80B1

Manufacturer Part Number

DSP56301PW80B1

Description

Manufacturer

Freescale Semiconductor

Datasheet

1.DSP56301PW80B1.pdf (124 pages)

Specifications of DSP56301PW80B1

Device Core Size

24b

Format

Fixed Point

Clock Freq (max)

80MHz

Mips

Device Input Clock Speed

80MHz

Ram Size

24KB

Program Memory Size

Not RequiredKB

Operating Supply Voltage (typ)

3.3V

Operating Supply Voltage (min)

Operating Supply Voltage (max)

3.6V

Operating Temp Range

-40C to 100C

Operating Temperature Classification

Industrial

Mounting

Surface Mount

Pin Count

208

Package Type

TQFP

Lead Free Status / Rohs Status

Not Compliant

Current page: 106 of 124
Download datasheet (4Mb)

Design Considerations

Where:

Note: F1 should be significantly less than F2. For example, F2 could be 66 MHz and F1 could be 33 MHz. The

4.4 PLL Performance Issues

The following explanations should be considered as general observations on expected PLL behavior. There is no

test that replicates these exact numbers. These observations were measured on a limited number of parts and were

not verified over the entire temperature and voltage ranges.

4.4.1

The phase skew of the PLL is defined as the time difference between the falling edges of EXTAL and CLKOUT

for a given capacitive load on CLKOUT, over the entire process, temperature and voltage ranges. As defined in

Figure 2-2, External Clock Timing, on page -5 for input frequencies greater than 15 MHz and the MF ≤ 4, this

skew is greater than or equal to 0.0 ns and less than 1.8 ns; otherwise, this skew is not guaranteed. However, for MF

< 10 and input frequencies greater than 10 MHz, this skew is between −1.4 ns and +3.2 ns.

4.4.2

The phase jitter of the PLL is defined as the variations in the skew between the falling edges of EXTAL and

CLKOUT for a given device in specific temperature, voltage, input frequency, MF, and capacitive load on

CLKOUT. These variations are a result of the PLL locking mechanism. For input frequencies greater than 15 MHz

and MF ≤ 4, this jitter is less than ±0.6 ns; otherwise, this jitter is not guaranteed. However, for MF < 10 and input

frequencies greater than 10 MHz, this jitter is less than ±2 ns.

4.4.3

The frequency jitter of the PLL is defined as the variation of the frequency of CLKOUT. For small MF (MF < 10)

this jitter is smaller than 0.5 per cent. For mid-range MF (10 < MF < 500) this jitter is between 0.5 per cent and

approximately 2 per cent. For large MF (MF > 500), the frequency jitter is 2–3 per cent.

4.5 Input (EXTAL) Jitter Requirements

The allowed jitter on the frequency of

(that is, it does not jump between the minimum and maximum values in one cycle) or the frequency of the jitter is

fast (that is, it does not stay at an extreme value for a long time), then the allowed jitter can be 2 percent. The phase

and frequency jitter performance results are valid only if the input jitter is less than the prescribed values.

4-4

typF2

typF1

degree of difference between F1 and F2 determines the amount of precision with which the current rating

can be determined for an application.

Equation 5:

Phase Skew Performance

Phase Jitter Performance

Frequency Jitter Performance

current at F2

current at F1

high frequency (any specified operating frequency)

low frequency (any specified operating frequency lower than F2)

I MIPS

⁄

I MHz

⁄

EXTAL

DSP56301 Technical Data, Rev. 10

is 0.5 percent. If the rate of change of the frequency of

(

typF2

–

typF1

)

⁄

(

F2 F1

–

)

Freescale Semiconductor

EXTAL

is slow

DSP56301PW80B1 Freescale Semiconductor, DSP56301PW80B1 Datasheet - Page 106

DSP56301PW80B1

Specifications of DSP56301PW80B1

Related parts for DSP56301PW80B1