AD14060BF-4 Analog Devices Inc, AD14060BF-4 Datasheet - Page 31

AD14060BF-4

Manufacturer Part Number

AD14060BF-4

Description

IC DSP CMOS 32BIT 308CQFP

Manufacturer

Analog Devices Inc

Series

SHARC®r

Type

Fixed/Floating Pointr

Datasheet

1.AD14060LBF-4.pdf (48 pages)

Specifications of AD14060BF-4

Rohs Status

RoHS non-compliant

Interface

Host Interface, Link Port, Serial Port

Clock Rate

40MHz

Non-volatile Memory

External

On-chip Ram

2MB

Voltage - I/o

5.00V

Voltage - Core

5.00V

Operating Temperature

-40°C ~ 100°C

Mounting Type

Surface Mount

Package / Case

308-CQFP

Device Core Size

32b

Architecture

Enhanced Harvard

Clock Freq (max)

40MHz

Mips

Device Input Clock Speed

40MHz

Ram Size

1.9073535156MB

Operating Supply Voltage (typ)

Operating Supply Voltage (min)

4.75V

Operating Supply Voltage (max)

5.25V

Operating Temp Range

-40C to 100C

Operating Temperature Classification

Industrial

Mounting

Surface Mount

Pin Count

308

Package Type

CQFP

Lead Free Status / Rohs Status

Not Compliant

Current page: 31 of 48
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SBTS

HBR

HBG

CSA

CSB

CSC

CSD

REDY

(O/D)

RPBA

CPAy (O/D)

DT0

DR0

TCLK0

RCLK0

TFS0

RFS0

DTy1

DRy1

TCLKy1

RCLKy1

TFSy1

RFSy1

FLAGy0

6-1

Type

I/S

I/A

I/O

I/A

I/O/S

I/S

I/O

O/T

I/O

O/T

I/O

I/O/A

Function

Suspend Bus Three-State (common to all SHARCs). External devices can assert SBTS (low) to place the external bus

address, data, selects, and strobes in a high impedance state for the following cycle. If the AD14060/AD14060L

attempts to access external memory while SBTS is asserted, the processor halts and the memory access does not

complete until SBTS is de-asserted. SBTS should be used only to recover from host processor/AD14060/AD14060L

deadlock, or used with a DRAM controller.

Host Bus Request (common to all SHARCs). Must be asserted by a host processor to request control of the

AD14060/AD14060L’s external bus. When HBR is asserted in a multiprocessing system, the ADSP-2106x that is bus

master relinquishes the bus and asserts HBG. To relinquish the bus, the ADSP-2106x places the address, data, select,

and strobe lines in a high impedance state. HBR has priority over all ADSP-2106x bus requests (BR

multiprocessing system.

Host Bus Grant (common to all SHARCs). Acknowledges an HBR bus request, indicating that the host processor can

take control of the external bus. HBG is asserted (held low) by the AD14060/AD14060L until HBR is released. In a

multiprocessing system, HBG is output by the ADSP-2106x bus master and is monitored by all others.

Chip Select. Asserted by host processor to select SHARC_A.

Chip Select. Asserted by host processor to select SHARC_B.

Chip Select. Asserted by host processor to select SHARC_C.

Chip Select. Asserted by host processor to select SHARC_D.

Host Bus Acknowledge (common to all SHARCs). The AD14060/AD14060L de-asserts REDY (low) to add wait states

to an asynchronous access of its internal memory or IOP registers by a host. Open-drain output (O/D) by default;

can be programmed in ADREDY bit of SYSCON register of individual ADSP-21060s to be active drive (A/D). REDY is

output only if the CS and HBR inputs are asserted.

Multiprocessing Bus Requests (common to all SHARCs). Used by multiprocessing ADSP-2106xs to arbitrate for bus

mastership. An ADSP-2106x drives only its own BRx line (corresponding to the value of its ID2-0 inputs) and

monitors all others. In a multiprocessor system with less than six ADSP-2106xs, the unused BRx pins should be

pulled high; BR

Rotating Priority Bus Arbitration Select (common to all SHARCs). When RPBA is high, rotating priority for multi-

processor bus arbitration is selected. When RPBA is low, fixed priority is selected. This signal is a system

configuration selection that must be set to the same value on every ADSP-2106x. If the value of RPBA is changed

during system operation, it must be changed in the same CLKIN cycle on every ADSP-2106x.

Core Priority Access (y = SHARC_A, B, C, D). Asserting its CPA pin allows the core processor of an ADSP-2106x bus

slave to interrupt background DMA transfers and gain access to the external bus. CPA is an open-drain output that

is connected to all ADSP-2106xs in the system, if this function is required. The CPA pin of each internal ADSP-21060

is brought out individually. The CPA pin has an internal 5 kΩ pull-up resistor. If core access priority is not required in

a system, the CPA pin should be left unconnected.

Data Transmit (common Serial Ports 0 to all SHARCs, TDM). The DT pin has a 50 kΩ internal pull-up resistor.

Data Receive (common Serial Ports 0 to all SHARCs, TDM). The DR pin has a 50 kΩ internal pull-up resistor.

Transmit Clock (common Serial Ports 0 to all SHARCs, TDM). The TCLK pin has a 50 kΩ internal pull-up resistor.

Receive Clock (common Serial Ports 0 to all SHARCs, TDM). The RCLK pin has a 50 kΩ internal pull-up resistor.

Transmit Frame Sync (common Serial Ports 0 to all SHARCs, TDM).

Receive Frame Sync (common Serial Ports 0 to all SHARCs, TDM).

Data Transmit (Serial Port 1 individual from SHARC_A, SHARC_B, SHARC_C, SHARC_D). The DT pin has a 50 kΩ

internal pull-up resistor.

Data Receive (Serial Port 1 individual from SHARC_A, SHARC_B, SHARC_C, SHARC_D). The DR pin has a 50 kΩ

internal pull-up resistor.

Transmit Clock (Serial Port 1 individual from SHARC_A, SHARC_B, SHARC_C, SHARC_D). The TCLK pin has a 50 kΩ

internal pull-up resistor.

Receive Clock (Serial Port 1 individual from SHARC_A, SHARC_B, SHARC_C, SHARC_D). The RCLK pin has a 50 kΩ

internal pull-up resistor.

Transmit Frame Sync (Serial Port 1 individual from SHARC_A, SHARC_B, SHARC_C, SHARC_D).

Receive Frame Sync (Serial Port 1 individual from SHARC_A, SHARC_B, SHARC_C, SHARC_D).

Flag Pins (FLAG0 individual from SHARC_A, SHARC_B, SHARC_C, SHARC_D). Each pin is configured via control bits

as either an input or an output. As an input, it can be tested as a condition. As an output, it can be used to signal

external peripherals.

4-1

must not be pulled high or low, because they are outputs.

Rev. B | Page 31 of 48

AD14060/AD14060L

6-1

) in a

AD14060BF-4 Analog Devices Inc, AD14060BF-4 Datasheet - Page 31

AD14060BF-4

Specifications of AD14060BF-4

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