COMMERCIAL EXTENDED Bit-Slice Micro Processors 1

  1. Home
  2. Bit-Slice Micro Processors
Manufacturers
    • Advanced Micro Devices
    • Altera
    • Analog Devices
    • Cypress Semiconductor
    • Infineon Technologies
    • Integrated Device Technology
    • Rochester Electronics
    • STMicroelectronics
    • Texas Instruments
Peripheral IC Type
    • BIT-SLICE MICROPROCESSOR
    • BIT-SLICE PROCESSOR, DIRECT MEMORY ADDRESS GENERATOR
    • BIT-SLICE PROCESSOR, MICROPROGRAM SEQUENCER
Temperature Grade (1)
    • COMMERCIAL EXTENDED
    • COMMERCIAL
    • INDUSTRIAL
    • MILITARY
    • OTHER
Terminal Form
    • J BEND
    • NO LEAD
    • PIN/PEG
    • THROUGH-HOLE
No. of Terminals
    • 100
    • 20
    • 24
    • 28
    • 40
    • 44
    • 48
    • 52
    • 64
    • 68
    • 84
    • 85
Package Code
    • DIP
    • PGA
    • QCCJ
    • QCCN
    • QIP
    • SDIP
    • WDIP
    • WQCCJ
Package Shape
    • RECTANGULAR
    • SQUARE
Package Body Material
    • CERAMIC
    • CERAMIC, GLASS-SEALED
    • CERAMIC, METAL-SEALED COFIRED
    • PLASTIC/EPOXY
Surface Mount
    • NO
    • YES
Maximum Supply Voltage
    • 5.25 V
    • 5.5 V
Screening Level
    • 38535Q/M;38534H;883B
    • MIL-STD-883
    • MIL-STD-883 Class B (Modified)
Address Bus Width
    • 0
DAC Channels
    • NO
Bit Size
    • 16
Power Supplies (V)
    • 2,5
    • 5
Package Style (Meter)
    • CHIP CARRIER
    • CHIP CARRIER, WINDOW
    • GRID ARRAY
    • IN-LINE
    • IN-LINE, SHRINK PITCH
    • IN-LINE, WINDOW
Package Equivalence Code
    • DIP20,.3
    • DIP24,.3
    • DIP28,.3
    • DIP28,.6
    • DIP40,.6
    • DIP48,.6
    • DIP64,.9
    • LCC20,.35SQ
    • LCC28,.45SQ
    • LCC44(UNSPEC)
    • LCC44,.65SQ
    • LCC68,.95SQ
    • LDCC20,.4SQ
    • LDCC28,.5SQ
    • LDCC44,.7SQ
    • LDCC52,.8SQ
    • LDCC68,1.0SQ
    • LDCC84,1.2SQ
    • PGA100M,13X13
    • PGA68,11X11
    • PGA84M,11X11
    • PGA85M,11X11
    • QUIP48A,.6/.8
Minimum Supply Voltage
    • 4.5 V
    • 4.75 V
Maximum Operating Temperature
    • 125 Cel
    • 70 Cel
    • 85 Cel
Minimum Operating Temperature
    • -40 Cel
    • -55 Cel
    • 0 Cel
Terminal Finish
    • TIN LEAD
    • Tin/Lead (Sn/Pb)
ADC Channels
    • NO
Terminal Position
    • DUAL
    • PERPENDICULAR
    • QUAD
DMA Channels
    • NO
Maximum Seated Height
    • 2.03 mm
    • 2.54 mm
    • 2.667 mm
    • 3.05 mm
    • 3.81 mm
    • 3.9116 mm
    • 3.916 mm
    • 4.29 mm
    • 4.3688 mm
    • 4.57 mm
    • 4.826 mm
    • 5.08 mm
    • 5.558 mm
    • 5.715 mm
    • 5.72 mm
Width
    • 11.43 mm
    • 11.5316 mm
    • 15.24 mm
    • 15.748 mm
    • 16.6116 mm
    • 19.1262 mm
    • 22.86 mm
    • 24.13 mm
    • 24.2062 mm
    • 27.94 mm
    • 7.62 mm
    • 8.89 mm
    • 8.9662 mm
Additional Features
    • 2 X 16 BIT DATA INPUT BUS; 3 CONTROL PINS TO SELECT OPERATION; ICC SPECIFIED @ 10MHZ
External Data Bus Width
    • 0
    • 14
    • 16
    • 4
    • 8
    • 9
Maximum Clock Frequency
    • 10 MHz
    • 11.11 MHz
    • 22.22 MHz
    • 28.57 MHz
    • 31 MHz
    • 31.25 MHz
    • 33.3 MHz
    • 33.33 MHz
    • 35 MHz
    • 50 MHz
    • 8 MHz
Maximum Time At Peak Reflow Temperature (s)
    • 20
    • NOT SPECIFIED
Peak Reflow Temperature (C)
    • 220
    • 225
    • 235
    • NOT SPECIFIED
Length
    • 11.43 mm
    • 11.5316 mm
    • 16.6 mm
    • 16.6116 mm
    • 19.1262 mm
    • 24.13 mm
    • 24.1935 mm
    • 24.2062 mm
    • 24.3205 mm
    • 26.162 mm
    • 26.289 mm
    • 27.94 mm
    • 31.9405 mm
    • 37.211 mm
    • 50.8 mm
    • 52.07 mm
    • 52.451 mm
    • 60.96 mm
    • 8.89 mm
    • 8.9662 mm
    • 81.28 mm
Technology
    • BIPOLAR
    • CMOS
    • TTL
Maximum Supply Current
    • .1 mA
    • .2 mA
    • 100 mA
    • 115 mA
    • 120 mA
    • 140 mA
    • 145 mA
    • 170 mA
    • 200 mA
    • 25 mA
    • 40 mA
    • 520 mA
    • 55 mA
    • 560 mA
    • 60 mA
    • 70 mA
    • 75 mA
    • 76 mA
    • 85 mA
    • 90 mA
Nominal Supply Voltage
    • 5 V
PWM Channels
    • NO
Sub-Category
    • Bit-Slice Processors
    • Microprocessors
    • Other Microprocessor ICs
Terminal Pitch
    • 1.27 mm
    • 1.78 mm
    • 2.54 mm
JESD-30 Code
    • R-CDIP-T20
    • R-CDIP-T24
    • R-CDIP-T40
    • R-CDIP-T48
    • R-GDIP-T20
    • R-GDIP-T40
    • R-PDIP-T20
    • R-PDIP-T24
    • R-PDIP-T28
    • R-PDIP-T40
    • R-PDIP-T48
    • R-PDIP-T64
    • R-PQIP-P48
    • R-XDIP-T20
    • R-XDIP-T24
    • R-XDIP-T28
    • R-XDIP-T40
    • R-XDIP-T64
    • R-XQIP-P48
    • S-CPGA-P68
    • S-CQCC-J28
    • S-CQCC-J44
    • S-CQCC-N20
    • S-CQCC-N44
    • S-CQCC-N68
    • S-PQCC-J20
    • S-PQCC-J28
    • S-PQCC-J44
    • S-PQCC-J52
    • S-PQCC-J68
    • S-PQCC-J84
    • S-PQCC-N20
    • S-XPGA-P100
    • S-XPGA-P68
    • S-XPGA-P84
    • S-XPGA-P85
    • S-XQCC-J28
    • S-XQCC-N20
    • S-XQCC-N28
    • S-XQCC-N44
    • S-XQCC-N68
Moisture Sensitivity Level (MSL)
    • 1
    • 3
Qualification
    • Not Qualified
Speed
    • 33.3 rpm
JESD-609 Code
    • e0
Reset All
Part RoHS Manufacturer Peripheral IC Type Temperature Grade Terminal Form No. of Terminals Package Code Package Shape Package Body Material Surface Mount Maximum Supply Voltage Screening Level Address Bus Width DAC Channels Bit Size Power Supplies (V) Package Style (Meter) Package Equivalence Code Minimum Supply Voltage Maximum Operating Temperature Minimum Operating Temperature Terminal Finish ADC Channels Terminal Position DMA Channels Maximum Seated Height Width Additional Features External Data Bus Width Maximum Clock Frequency Maximum Time At Peak Reflow Temperature (s) Peak Reflow Temperature (C) Length Technology Maximum Supply Current Nominal Supply Voltage PWM Channels Sub-Category Terminal Pitch JESD-30 Code Moisture Sensitivity Level (MSL) Qualification Speed JESD-609 Code

IA2910A-PDW40C

Analog Devices

BIT-SLICE PROCESSOR, MICROPROGRAM SEQUENCER

COMMERCIAL EXTENDED

THROUGH-HOLE

40

SDIP

RECTANGULAR

PLASTIC/EPOXY

NO

5.5 V

IN-LINE, SHRINK PITCH

DIP40,.6

4.5 V

85 Cel

0 Cel

DUAL

5.558 mm

15.24 mm

16

52.07 mm

CMOS

25 mA

5 V

1.78 mm

R-PDIP-T40

Bit-Slice Micro Processors

A bit-slice microprocessor is a type of microprocessor that is designed to perform operations on a small group of bits, known as a "slice". Each slice typically contains a few bits of data and control logic, which can be combined to perform various operations.

Bit-slice microprocessors were first developed in the 1970s as a way to create powerful microprocessors using simple building blocks. Each slice typically contained a few gates or flip-flops, and these slices could be combined to create a more complex microprocessor. The advantage of this approach was that designers could create custom microprocessors for specific applications by selecting the appropriate slices.

One of the key benefits of bit-slice microprocessors is their flexibility. By combining different types of slices, designers can create microprocessors that are tailored to specific applications. For example, a bit-slice microprocessor designed for a control system might contain slices for digital input/output, analog-to-digital conversion, and control logic.

Another advantage of bit-slice microprocessors is their scalability. Because they are built from small, simple building blocks, designers can easily add or remove slices to increase or decrease the processing power of the microprocessor. This makes them well-suited for applications where the processing requirements may change over time.