IDT72V51233L7-5BB IDT, Integrated Device Technology Inc, IDT72V51233L7-5BB Datasheet - Page 9

IDT72V51233L7-5BB

Manufacturer Part Number

IDT72V51233L7-5BB

Description

IC FLOW CTRL MULTI QUEUE 256-BGA

Manufacturer

IDT, Integrated Device Technology Inc

Datasheet

1.IDT72V51233L7-5BB8.pdf (50 pages)

Specifications of IDT72V51233L7-5BB

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Other names

72V51233L7-5BB

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PIN DESCRIPTIONS (CONTINUED)

IDT72V51233/72V51243/72V51253 3.3V, MULTI-QUEUE FLOW-CONTROL DEVICES

(4 QUEUES) 18 BIT WIDE CONFIGURATION 589,824, 1,179,648 and 2,359,296 bits

RDADD

[5:0]

(Continued)

(RDADD5-P16

RDADD4-P15

RDADD3-P14

RDADD2-N14

RDADD1-M16

RDADD0-M15)

REN

(T11)

SCLK

(N3)

SENI

(M2)

SENO

(M1)

(L1)

(M3)

TCK

(A8)

TDI

(B9)

Symbol &

Pin No.

(2)

Read Address Bus

Read Enable

Serial Clock

Serial Input Enable

Serial Output

Enable

Serial In

Serial Out

JTAG Clock

JTAG Test Data

Input

Name

I/O TYPE

OUTPUT has been completed. SENO follows SENI once programming of a device is complete. Therefore, SENO

OUTPUT to complete programming of all devices. The SI of a device connects to SO of the previous device in the

LVTTL

INPUT

LVTTL

INPUT

LVTTL

INPUT

LVTTL

INPUT

LVTTL

INPUT

LVTTL

INPUT

LVTTL

INPUT

on the RDADD bus will be selected on a rising edge of RCLK provided that RADEN is HIGH, (note, that

data can be placed on to the Qout bus, read from the previously selected queue on this RCLK edge).

placed onto the outputs, Qout, regardless of the REN input. Two RCLK rising edges after read queue

select, data will be placed on to the Qout outputs from the newly selected queue, regardless of REN due

to the first word fall through effect.

The second function of the RDADD bus is to select the device of queues to be loaded on to the PAEn

bus during strobed flag mode. The most significant 3 bits, RDADD[5:3] are again used to select 1 of 8

possible multi-queue devices that may be connected in expansion mode. Address bits RDADD[2:0] are

don’t care during device selection. The device address present on the RDADD bus will be selected on the

rising edge of RCLK provided that ESTR is HIGH, (note, that data can be placed on to the Qout bus, read

from the previously selected queue on this RCLK edge). Please refer to Table 2 for details on RDADD bus.

The REN input enables read operations from a selected queue based on a rising edge of RCLK. A

queue to be read from can be selected via RCLK, RADEN and the RDADD address bus regardless

of the state of REN. Data from a newly selected queue will be available on the Qout output bus on the second

RCLK cycle after queue selection regardless of REN due to the FWFT operation. A read enable is not

required to cycle the PAEn bus (in polled mode) or to select the device , (in direct mode).

If serial programming of the multi-queue device has been selected during master reset, the SCLK input

clocks the serial data through the multi-queue device. Data setup on the SI input is loaded into the device

on the rising edge of SCLK provided that SENI is enabled, LOW. When expansion of devices is performed

the SCLK of all devices should be connected to the same source.

During serial programming of a multi-queue device, data loaded onto the SI input will be clocked into the

part (via a rising edge of SCLK), provided the SENI input of that device is LOW. If multiple devices are

cascaded, the SENI input should be connected to the SENO output of the previous device. So when serial

loading of a given device is complete, its SENO output goes LOW, allowing the next device in the chain

to be programmed (SENO will follow SENI of a given device once that device is programmed). The SENI

input of the master device (or single device), should be controlled by the user.

This output is used to indicate that serial programming or default programming of the multi-queue device

will go LOW after programming provided SENI is LOW, once SENI is taken HIGH again, SENO will also

go HIGH. When the SENO output goes LOW, the device is ready to begin normal read/write operations.

If multiple devices are cascaded and serial programming of the devices will be used, the SENO output

should be connected to the SENI input of the next device in the chain. When serial programming of the

first device is complete, SENO will go LOW, thereby taking the SENI input of the next device LOW and

so on throughout the chain. When a given device in the chain is fully programmed the SENO output

essentially follows the SENI input. The user should monitor the SENO output of the final device in the chain.

When this output goes LOW, serial loading of all devices has been completed.

During serial programming this pin is loaded with the serial data that will configure the multi-queue devices.

Data present on SI will be loaded on a rising edge of SCLK provided that SENI is LOW. In expansion

mode the serial data input is loaded into the first device in a chain. When that device is loaded and its SENO

has gone LOW, the data present on SI will be directly output to the SO output. The SO pin of the first device

connects to the SI pin of the second and so on. The multi-queue device setup registers are shift registers.

This output is used in expansion mode and allows serial data to be passed through devices in the chain

chain. The SO of the final device in a chain should not be connected.

Clock input for JTAG function. One of four terminals required by IEEE Standard 1149.1-1990. Test

operations of the device are synchronous to TCK. Data from TMS and TDI are sampled on the rising edge

of TCK and outputs change on the falling edge of TCK. If the JTAG function is not used this signal needs

to be tied to GND.

One of four terminals required by IEEE Standard 1149.1-1990. During the JTAG boundary scan

operation,test data serially loaded via the TDI on the rising edge of TCK to either the Instruction Register,

ID Register and Bypass Register. An internal pull-up resistor forces TDI HIGH if left unconnected.

On the next rising RCLK edge after a read queue select, a data word from the previous queue will be

Description

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