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參數(shù)資料

型號：	BU-61583D0-451Z
廠商：	DATA DEVICE CORP
元件分類：	微控制器/微處理器
英文描述：	2 CHANNEL(S), 1M bps, MIL-STD-1553 CONTROLLER, CQIP70
封裝：	CERAMIC, DIP-70
文件頁數(shù)：	33/48頁
文件大?。?/td>	378K
代理商：	BU-61583D0-451Z

Data Device Corporation

www.ddc-web.com

BU-61582

G-08/02-250

Memory Write or Zero Wait State. In transparent mode, active low output signal (MEMWR) will be asserted low during memo-

ry write transfers to strobe data into internal or external RAM (normally connected to the WR signal on external RAM chips).

In buffered mode, input signal (ZERO WAIT) will be used to select between the zero wait mode (ZERO WAIT= logic 0) and

the nonzero wait mode (ZERO WAIT = logic 1).

MEMWR (O)

/ZERO_WAIT (I)

Memory Output Enable or Address Latch. In transparent mode, MEMEO output will be used to enable data outputs for exter-

nal RAM read cycles (normally connected to the OE signal on external RAM chips). In buffered mode, ADDR_LAT input will

be used to configure the internal address latches in latched mode (when low) or transparent mode (when high).

MEMOE (O)/

ADDR_LAT (I)

Memory Enable Input or Trigger Select. In transparent mode, MEMENA_IN is an active low Chip Select (CS) input to the 16K

x 16 of internal shared RAM. When only using internal RAM, connect directly to MEMENA_OUT. In 8-bit buffered mode, the

input signal (TRIGGER_SEL) indicates the order of byte pairs transferred to or from the BU-61582 by the host processor. This

signal has no operation (can be N/C) in the 16-bit buffered mode. In the 8-bit buffered mode, TRIGGER_SEL should be

asserted high (logic 1) if the byte order for both read operations and write operations is MSB followed by LSB. TRIGGER_SEL

should be asserted low (logic 0) if the byte order for both read operations and write operations is LSB followed by MSB.

MEMENA-IN (I)

/TRIGGER_SEL (I)

Memory Enable Output. Asserted low during both host processor and 1553 protocol/memory management memory transfer

cycles. Used as a memory chip select (CS) signal for external RAM in the transparent mode.

MEMENA-OUT (O)

Data Transfer Acknowledge or Polarity Select. In transparent mode, active low output signal used to indicate acceptance of

the processor interface bus in response to a data transfer grant (DTGR). In 16-bit buffered mode

(TRANSPARENT/BUFFERED = logic 0 and 16/8 = logic 1), input signal used to control the logic sense of the RD/WR sig-

nal.When POLARITY_SEL is logic 1, RD/WR must be asserted high (logic 1) for a read operation and low (logic 0) for a write

operation. When POLARITY_SEL is logic 0, RD/WR must be asserted low (logic 0) for a read operation and high (logic 1) for

a write operation. In 8-bit buffered mode (TRANSPARENT/BUFFERED = logic 0 and 16/8 = logic 0), input signal used to con-

trol the logic sense of the MSB/LSB signal. When POLARITY_SEL is logic 0, MSB/LSB must be asserted low (logic 0) to indi-

cate the transfer of the least significant byte and high (logic 1) to indicate the transfer of the most significant byte. When

POLARITY_SEL is logic 1, MSB/LSB must be asserted high (logic 1) to indicate the transfer of the least significant byte and

low (logic 0) to indicate the transfer of the most significant byte.

DTACK (O)/

POLARITY_SEL (I)

Data Transfer Grant or Most Significant Byte/Least Significant Byte. In transparent mode, active low input signal asserted, in

response to the DTREQ output, to indicate that access to the processor buses has been granted to the BU-61582. In 8-bit

buffered mode, input signal used to indicate which byte is being transferred (MSB or LSB). The POLARITY_SEL input con-

trols the logic sense of MSB/LSB. (Note: only the 8-bit buffered mode uses MSB/LSB.) See description of POLARITY_SEL

signal.

DTGRT (I)

/MSB/LSB (I)

Data Transfer Request or 16-bit/8-bit Transfer Mode Select. In transparent mode, active low output signal used to request

access to the processor interface bus (address, data, and control buses). In buffered mode, input signal used to select

between the 16-bit data transfer mode (16/8 = logic 1) and the 8 bit data transfer mode (16/8 = logic 0).

DTREQ (O)

/16/8 (I)

Interrupt request output. If the LEVEL/PULSE interrupt bit (bit 3) of Configuration Register #2 is low, a negative pulse of

approximately 500 ns in width is output on INT. If bit 3 is high, a low level interrupt request output will be asserted on INT.

INT (O)

Handshake output to host processor. For a nonzero wait state read access, signals that data is available to be read on D15

through D0. For a nonzero wait state write cycle, signals the completion of data transfer to a register or RAM location. In the

buffered zero wait state mode, active high output signal (following the rising edge of STRBD used to indicate the latching of

address and data (write only) and that an internal transfer between the address/data latches and the RAM/registers is on-going.

READYD (O)

Tri-state control for external address and data buffers. Generally not needed in the buffered mode. When low, external buffers

should be enabled to allow the host processor access to the BU-61582’s RAM and registers.

IOEN (O)

Read/Write. For host processor access, selects either reading or writing. In the 16-bit buffered mode, if polarity select is logic

(0), then RD/WR is low (logic 0 ) for read accesses and high (logic 1 ) for write accesses. If polarity select is logic 1 or the

configuration of the interface is a mode other than 16-bit buffered mode, then RD/WR is high (logic 1 ) for read accesses and

low (logic 0 ) for write accesses.

RD/WR (I)

Memory/Register. Generally connected to either a CPU address line or address decoder output. Selects between memory

access MEM/REG = 1 (or register access MEM/REG = 0 ).

MEM/REG (I)

Generally connected to a CPU address decoder output to select the BU-61582 for a transfer to/from either RAM or register.

May be tied to STRBD

SELECT (I)

Strobe Data. Used with SELECT to initiate and control the data transfer cycle between the host processor and the

BU-61582.

STRBD (I)

Used to select between the Transparent/ DMA mode (when strapped to logic 1) and the Buffered mode (when strapped to

logic 0) for the host processor interface.

TRANSPARENT/

BUFFERED (I)

DESCRIPTION

PIN

SIGNAL NAME

SIGNAL DESCRIPTIONS, PROCESSOR/MEMORY INTERFACE AND CONTROL (15)

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