ADSP-2186MBSTZ266R Datasheet ADSP-2186MBSTZ-266, ADSP-2186MKSTZ-300, ADSP-2186MBSTZ266R | P22-P24

REV. 0

ADSP-2186M

–19–

ABSOLUTE MAXIMUM RATINGS

Value

Parameter Min Max

Internal Supply Voltage (V

DDINT

) –0.3 V +3.0 V

External Supply Voltage (V

DDEXT

) –0.3 V +4.0 V

Input Voltage

–0.5 V +4.0 V

Output Voltage Swing

–0.5 V V

DDEXT

+ 0.5 V

Operating Temperature Range –40°C +85°C

Storage Temperature Range –65°C +150°C

Lead Temperature (5 sec) LQFP 280°C

NOTES

Stresses greater than those listed may cause permanent damage to the device.

These are stress ratings only; functional operation of the device at these or any other

conditions greater than those indicated in the operational sections of this specifi-

cation is not implied. Exposure to absolute maximum rating conditions for

extended periods may affect device reliability.

Applies to Bidirectional pins (D0–D23, RFS0, RFS1, SCLK0, SCLK1, TFS0,

TFS1, A1–A13, PF0–PF7) and Input only pins (CLKIN, RESET, BR, DR0,

DR1, PWD).

Applies to Output pins (BG, PMS, DMS, BMS, IOMS, CMS, RD, WR, PWDACK,

A0, DT0, DT1, CLKOUT, FL2–0, BGH).

TIMING SPECIFICATIONS

GENERAL NOTES

Use the exact timing information given. Do not attempt to

derive parameters from the addition or subtraction of others.

While addition or subtraction would yield meaningful results for

an individual device, the values given in this data sheet reflect

statistical variations and worst cases. Consequently, you cannot

meaningfully add up parameters to derive longer times.

TIMING NOTES

Switching characteristics specify how the processor changes its

signals. You have no control over this timing—circuitry external

to the processor must be designed for compatibility with these

signal characteristics. Switching characteristics tell you what the

processor will do in a given circumstance. You can also use

switching characteristics to ensure that any timing require-

ment of a device connected to the processor (such as memory)

is satisfied.

Timing requirements apply to signals that are controlled by

circuitry external to the processor, such as the data input for a

read operation. Timing requirements guarantee that the proces-

sor operates correctly with other devices.

MEMORY TIMING SPECIFICATIONS

The table below shows common memory device specifications

and the corresponding ADSP-2186M timing parameters, for

your convenience.

Memory Timing

Device Parameter

Specification Parameter Definition

Address Setup to t

ASW

A0–A13, xMS Setup before

Write Start WR Low

Address Setup to t

A0–A13, xMS Setup before

Write End WR Deasserted

Address Hold Time t

WRA

A0–A13, xMS Hold before

WR Low

Data Setup Time t

Data Setup before WR

High

Data Hold Time t

Data Hold after WR High

OE to Data Valid t

RDD

RD Low to Data Valid

Address Access Time t

A0–A13, xMS to Data Valid

NOTE

xMS = PMS, DMS, BMS, CMS or IOMS.

ESD SENSITIVITY

ESD (electrostatic discharge) sensitive device. Electrostatic charges as high as 4000 V readily

accumulate on the human body and test equipment and can discharge without detection. Although

the ADSP-2186M features proprietary ESD protection circuitry, permanent damage may occur on

devices subjected to high-energy electrostatic discharges. Therefore, proper ESD precautions are

recommended to avoid performance degradation or loss of functionality.

WARNING!

ESD SENSITIVE DEVICE

REV. 0

–20–

ADSP-2186M

• Each address and data pin has a 10 pF total load at the pin.

• The application operates at V

DDEXT

= 3.3 V and t

= 30 ns.

Total Power Dissipation = P

INT

+ (C × V

DDEXT

× f )

INT

= internal power dissipation from Power vs. Frequency

graph (Figure 15).

(C × V

DDEXT

× f ) is calculated for each output:

# of ⴛ C ⴛ V

DDEXT

ⴛ fPD

Parameters Pins pF V MHz mW

Address 7 10 3.3

16.67 12.7

Data Output, WR 9 10 3.3

16.67 16.3

RD 1 10 3.3

16.67 1.8

CLKOUT, DMS 2 10 3.3

33.3 7.2

38.0

Total power dissipation for this example is P

INT

+ 38.0 mW.

Output Drive Currents

Figure 14 shows typical I-V characteristics for the output drivers

on the ADSP-2186M. The curves represent the current drive

capability of the output drivers as a function of output voltage.

SOURCE VOLTAGE – V

0.5 1.0

SOURCE CURRENT – mA

–20

–40

–60

DDEXT

= 3.6V @ –40ⴗC

DDEXT

= 3.3V @ +25ⴗC

DDEXT

= 2.5V @ +85ⴗC

DDEXT

= 2.5V @ +85ⴗC

DDEXT

= 3.3V @ +25ⴗC

DDEXT

= 3.6V @ –40ⴗC

–80

1.5 2.0 2.5 3.0 3.5 4.0

Figure 14. Typical Output Driver Characteristics

FREQUENCY DEPENDENCY FOR TIMING

SPECIFICATIONS

is defined as 0.5 t

CKI

. The ADSP-2186M uses an input clock

with a frequency equal to half the instruction rate. For example,

a 37.50 MHz input clock (which is equivalent to 26.6 ns) yields

a 13.3 ns processor cycle (equivalent to 75 MHz). t

values

within the range of 0.5 t

CKI

period should be substituted for all

relevant timing parameters to obtain the specification value.

Example: t

CKH

= 0.5 t

– 2 ns = 0.5 (15 ns) – 2 ns = 5.5 ns

ENVIRONMENTAL CONDITIONS

Rating

Description Symbol LQFP Mini-BGA

Thermal Resistance θ

48°C/W 63.3°C/W

(Case-to-Ambient)

Thermal Resistance θ

50°C/W 70.7°C/W

(Junction-to-Ambient)

Thermal Resistance θ

2°C/W 7.4°C/W

(Junction-to-Case)

NOTE

Where the Ambient Temperature Rating (T

AMB

) is:

AMB

= T

CASE

– (PD × θ

)

CASE

= Case Temperature in °C

PD = Power Dissipation in W

POWER DISSIPATION

To determine total power dissipation in a specific application,

the following equation should be applied for each output:

C × V

2 × f

C = load capacitance, f = output switching frequency.

Example:

In an application where external data memory is used and no other

outputs are active, power dissipation is calculated as follows:

Assumptions:

• External data memory is accessed every cycle with 50% of the

address pins switching.

• External data memory writes occur every other cycle with

50% of the data pins switching.

REV. 0

ADSP-2186M

–21–

VALID FOR ALL TEMPERATURE GRADES.

POWER REFLECTS DEVICE OPERATING WITH NO OUTPUT LOADS.

TYPICAL POWER DISSIPATION AT 2.5V V

DDINT

AND 25ⴗC, EXCEPT

WHERE SPECIFIED.

MEASUREMENT TAKEN WITH ALL INSTRUCTIONS EXECUTING FROM

INTERNAL MEMORY. 50% OF THE INSTRUCTIONS ARE MULTIFUNCTION

(TYPES 1, 4, 5, 12, 13, 14), 30% ARE TYPE 2 AND TYPE 6, AND 20% ARE

IDLE INSTRUCTIONS.

IDLE REFERS TO STATE OF OPERATION DURING EXECUTION

OF IDLE INSTRUCTION. DEASSERTED PINS ARE DRIVEN TO EITHER V

OR GND.

NOTES:

POWER (P

IDLE

n) – mW

20mW

15mW

14.25mW

15.7mW

16.4mW

24mW

IDLE (16)

IDLE (128)

IDLE

POWER, IDLE n MODES

1/t

– MHz

50 75

55 60 70 8065

POWER (P

IDLE

) – mW

24mW

28mW

= 2.65V

20mW

24mW

= 2.5V

16.5mW

20mW

= 2.35V

POWER, IDLE

1, 2, 4

1/t

– MHz

55 60 65 70 75 80

1/t

– MHz

50 80

82mW

70mW

61mW

95mW

82mW

POWER, INTERNAL

1, 2, 3

110mW

POWER (P

INT

) – mW

= 2.65V

= 2.5V

= 2.35V

55 60 65 70 75

100

105

110

115

= 2.65V

= 2.5V

= 2.35V

Figure 15. Power vs. Frequency

Capacitive Loading

Figure 16 and Figure 17 show the capacitive loading character-

istics of the ADSP-2186M.

– pF

RISE TIME (0.4V–2.4V) – ns

3000

100 150 200 250

T = 85ⴗC

= 0V TO 2.0V

Figure 16. Typical Output Rise Time vs. Load Capacitance

(at Maximum Ambient Operating Temperature)

– pF

VALID OUTPUT DELAY OR HOLD – ns

50 100 150 250200

–2

NOMINAL

–4

–6

Figure 17. Typical Output Valid Delay or Hold vs. Load

Capacitance, C

(at Maximum Ambient Operating

Temperature)

P1-P3 P4-P6 P7-P9 P10-P12 P13-P15 P16-P18 P19-P21 P22-P24 P25-P27 P28-P30 P31-P33 P34-P36 P37-P39 P40-P42 P43-P43

ADSP-2186MBSTZ266R

Mfr. #:

Buy ADSP-2186MBSTZ266R

Manufacturer:

Analog Devices Inc.

Description:

Digital Signal Processors & Controllers - DSP, DSC 16B 75 MIPS 2.5V 2 Serial Prts Host Prt

Lifecycle:

New from this manufacturer.

Delivery:

DHL FedEx Ups TNT EMS

Payment:

T/T Paypal Visa MoneyGram Western Union

ADSP-2186MBSTZ266R

ADSP-2186MBSTZ266R

Products related to this Datasheet