All Products

SMJ320C26BFDM

1.27mm 5V 512B CPLD 68 Pin 40MHz 5V


  • Manufacturer: Texas Instruments
  • Origchip NO: 815-SMJ320C26BFDM
  • Package: -
  • Datasheet: -
  • Stock: 278
  • Description: 1.27mm 5V 512B CPLD 68 Pin 40MHz 5V (Kg)

Purchase & Inquiry

Transport

Purchase

You may place an order without registering to Utmel.
We strongly suggest you sign in before purchasing as you can track your order in real time.

Means of Payment

For your convenience, we accept multiple payment methods in USD, including PayPal, Credit Card, and wire transfer.

RFQ (Request for Quotations)

It is recommended to request for quotations to get the latest prices and inventories about the part.
Our sales will reply to your request by email within 24 hours.

IMPORTANT NOTICE

1. You'll receive an order information email in your inbox. (Please remember to check the spam folder if you didn't hear from us).
2. Since inventories and prices may fluctuate to some extent, the sales manager is going to reconfirm the order and let you know if there are any updates.

Shipping Cost

Shipping starts at $40, but some countries will exceed $40. For example (South Africa, Brazil, India, Pakistan, Israel, etc.)
The basic freight (for package ≤0.5kg or corresponding volume) depends on the time zone and country.

Shipping Method

Currently, our products are shipped through DHL, FedEx, SF, and UPS.

Delivery Time

Once the goods are shipped, estimated delivery time depends on the shipping methods you chose:

FedEx International, 5-7 business days.

The following are some common countries' logistic time.
transport

Details

Tags

Parameters
Mount Surface Mount
Number of Pins 68
Pbfree Code no
Number of Terminations 68
ECCN Code 3A001.A.2.C
Max Operating Temperature 125°C
Min Operating Temperature -55°C
HTS Code 8542.31.00.01
Subcategory Digital Signal Processors
Technology CMOS
Terminal Position QUAD
Terminal Form NO LEAD
Peak Reflow Temperature (Cel) NOT SPECIFIED
Supply Voltage 5V
Terminal Pitch 1.27mm
Frequency 40MHz
Time@Peak Reflow Temperature-Max (s) NOT SPECIFIED
Pin Count 68
Qualification Status Not Qualified
Operating Supply Voltage 5V
Power Supplies 5V
Temperature Grade MILITARY
Max Supply Voltage 5.5V
Min Supply Voltage 4.5V
Memory Size 512B
RAM Size 3kB
uPs/uCs/Peripheral ICs Type DIGITAL SIGNAL PROCESSOR, OTHER
Supply Current-Max 185mA
Bit Size 16
Address Bus Width 16
Boundary Scan NO
Low Power Mode NO
Screening Level MIL-PRF-38535
External Data Bus Width 16
Format FLOATING POINT
Barrel Shifter YES
Internal Bus Architecture MULTIPLE
Height Seated (Max) 3.05mm
Length 24.13mm
Width 24.13mm
RoHS Status RoHS Compliant
Lead Free Contains Lead

SMJ320C26BFDM Overview


The uses of this product can be terminated with 68.It is supplied with voltage by 5V.Pins are available for 68 components.This configuration contains 68 pins.The device operates at the frequency of 40MHz in accordance with a specific design.It adopts Surface Mount as its mounting way.On the basis of its specific characteristics, this device can be classified as a Digital Signal Processors device.In order to power this device, a voltage as low as 4.5V needs to be supplied.5.5V is the maximum voltage that can be supplied to this device.This device is powered by 5V's supply voltage.Data can be stored in this device's memory in 512B format.There is an electric supply from 5V.A DIGITAL SIGNAL PROCESSOR, OTHER type UP/UC/Peripheral IC is employed in its uP/UC/Peripheral ICs.It is recommended to keep the operating temperature below 125°C.-55°C should be exceeded as the operating temperature.

SMJ320C26BFDM Features


Operating supply voltage of 5V
DIGITAL SIGNAL PROCESSOR, OTHER as uPs/uCs/Peripheral Ics

SMJ320C26BFDM Applications


There are a lot of Texas Instruments SMJ320C26BFDM DSP applications.

  • Consumer electronic gadgets
  • Sound navigation and ranging systems
  • Remote sensing image processing technology
  • Airplanes
  • Tomography technology
  • 3D tomography and imaging processing
  • Statistical signal processing
  • Encoding/broadcast
  • Real-time effects
  • Other sensor array processing