All Products

EPM1270M256C4N

1.5/3.32.5/3.3V 0.5mm PMIC MAX? II Series EPM1270 2.5V 256-TFBGA


  • Manufacturer: Intel
  • Origchip NO: 386-EPM1270M256C4N
  • Package: 256-TFBGA
  • Datasheet: PDF
  • Stock: 415
  • Description: 1.5/3.32.5/3.3V 0.5mm PMIC MAX? II Series EPM1270 2.5V 256-TFBGA (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
Factory Lead Time 8 Weeks
Mounting Type Surface Mount
Package / Case 256-TFBGA
Surface Mount YES
Operating Temperature 0°C~85°C TJ
Packaging Tray
Published 2003
Series MAX® II
JESD-609 Code e1
Part Status Active
Moisture Sensitivity Level (MSL) 3 (168 Hours)
Number of Terminations 256
ECCN Code 3A991
Terminal Finish TIN SILVER COPPER
Additional Feature IT CAN ALSO OPERATE AT 3.3V
HTS Code 8542.39.00.01
Subcategory Programmable Logic Devices
Technology CMOS
Terminal Position BOTTOM
Terminal Form BALL
Peak Reflow Temperature (Cel) 260
Supply Voltage 2.5V
Terminal Pitch 0.5mm
Time@Peak Reflow Temperature-Max (s) 40
Base Part Number EPM1270
JESD-30 Code R-PBGA-B256
Qualification Status Not Qualified
Supply Voltage-Max (Vsup) 2.625V
Power Supplies 1.5/3.32.5/3.3V
Supply Voltage-Min (Vsup) 2.375V
Programmable Type In System Programmable
Number of I/O 212
Propagation Delay 8.1 ns
Output Function MACROCELL
Number of Macro Cells 980
JTAG BST YES
Voltage Supply - Internal 2.5V 3.3V
Delay Time tpd(1) Max 6.2ns
Number of Logic Elements/Blocks 1270
RoHS Status RoHS Compliant

EPM1270M256C4N Overview


There are 980 macro cells, which provide radio coverage via high-power cell towers, antennas or masts in a mobile phone network.The item is enclosed in a 256-TFBGA package.The device has 212inputs and outputs.Terminations of devices are set to [0].This electrical component has a terminal position of 0.Power is provided by a supply voltage of 2.5V volts.There is a part in the family [0].Trayshould be used to package the chip.It operates with the operating temperature of 0°C~85°C TJ to ensure its reliability.Ensure that the chip is mounted by Surface Mount.It is a type of FPGA belonging to the MAX? II series.This device can also display [0].In accordance with the [0], its related parts are listed.In total, there are 1270 logic elements/blocks.It runs on a voltage of 1.5/3.32.5/3.3Vvolts.Initially, the maximum supply voltage (Vsup) is 2.625V.The supply voltage (Vsup) should be greater than 2.375V.

EPM1270M256C4N Features


256-TFBGA package
212 I/Os
The operating temperature of 0°C~85°C TJ
1.5/3.32.5/3.3V power supplies

EPM1270M256C4N Applications


There are a lot of Intel EPM1270M256C4N CPLDs applications.

  • Timing control
  • I/O expansion
  • Multiple DIP Switch Replacement
  • I/O PORTS (MCU MODULE)
  • DDC INTERFACE
  • I2C BUS INTERFACE
  • Custom state machines
  • Digital multiplexers
  • POWER-SAVING MODES
  • PULSE WIDTH MODULATION (PWM)