HADC574ZBMJ
vs
MX574AJEPI+
feature comparison
Rohs Code |
No
|
Yes
|
Part Life Cycle Code |
Obsolete
|
Obsolete
|
Ihs Manufacturer |
SIGNAL PROCESSING TECHNOLOGIES
|
MAXIM INTEGRATED PRODUCTS INC
|
Package Description |
DIP, DIP28,.6
|
DIP,
|
Reach Compliance Code |
unknown
|
compliant
|
Analog Input Voltage-Max |
16.5 V
|
10 V
|
Analog Input Voltage-Min |
-16.5 V
|
-10 V
|
Conversion Time-Max |
25 µs
|
25 µs
|
Converter Type |
ADC, SUCCESSIVE APPROXIMATION
|
ADC, SUCCESSIVE APPROXIMATION
|
JESD-30 Code |
R-CDIP-T28
|
R-PDIP-T28
|
JESD-609 Code |
e0
|
e3
|
Linearity Error-Max (EL) |
0.012%
|
0.0244%
|
Number of Analog In Channels |
1
|
1
|
Number of Bits |
12
|
12
|
Number of Functions |
1
|
1
|
Number of Terminals |
28
|
28
|
Operating Temperature-Max |
125 °C
|
85 °C
|
Operating Temperature-Min |
-55 °C
|
-40 °C
|
Output Bit Code |
BINARY, 2'S COMPLEMENT BINARY
|
BINARY, OFFSET BINARY
|
Output Format |
PARALLEL, WORD
|
PARALLEL, WORD
|
Package Body Material |
CERAMIC, METAL-SEALED COFIRED
|
PLASTIC/EPOXY
|
Package Code |
DIP
|
DIP
|
Package Equivalence Code |
DIP28,.6
|
|
Package Shape |
RECTANGULAR
|
RECTANGULAR
|
Package Style |
IN-LINE
|
IN-LINE
|
Qualification Status |
Not Qualified
|
Not Qualified
|
Sample Rate |
0.056 MHz
|
|
Sample and Hold / Track and Hold |
SAMPLE
|
SAMPLE
|
Supply Current-Max |
9 mA
|
|
Surface Mount |
NO
|
NO
|
Technology |
CMOS
|
BICMOS
|
Temperature Grade |
MILITARY
|
INDUSTRIAL
|
Terminal Finish |
TIN LEAD
|
MATTE TIN
|
Terminal Form |
THROUGH-HOLE
|
THROUGH-HOLE
|
Terminal Pitch |
2.54 mm
|
2.54 mm
|
Terminal Position |
DUAL
|
DUAL
|
Base Number Matches |
3
|
1
|
Pbfree Code |
|
Yes
|
Part Package Code |
|
DIP
|
Pin Count |
|
28
|
HTS Code |
|
8542.39.00.01
|
Length |
|
36.83 mm
|
Moisture Sensitivity Level |
|
1
|
Negative Supply Voltage-Nom |
|
-15 V
|
Peak Reflow Temperature (Cel) |
|
260
|
Seated Height-Max |
|
5.08 mm
|
Supply Voltage-Nom |
|
15 V
|
Time@Peak Reflow Temperature-Max (s) |
|
30
|
Width |
|
15.24 mm
|
|
|
|
Compare HADC574ZBMJ with alternatives
Compare MX574AJEPI+ with alternatives