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Page Title:
Table 3. Group A inspection for all device types-cont. |
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|  TABLE III. Group A inspection for all device types Continued.
Applied voltages
Applied digital
DUT digital
Active
Measurement
ref. pin 9
code-word
output
relays
sense lines
Equation and notes
Limits
Units
(figures 6, 8)
code-word
ref. pin 9
Subgroup Symbol Test
Min
Max
29 <-------------> 40
29 <-------------> 16
7
11
1
Pin
Value
Unit
no.
VEE
VDD
VCC
MSB <------------>LSB
MSB <------------>LSB
(V)
(V)
(V)
5
For end-point linearity error,
LE(N) = (E(N+628)+E(N+629)) / 2-V(ideal)) / S
V(ideal) = N1* S+E629-S/2
TA =
+125C
N1 Applied ref DAC code-word
S = (E628-E629) / 4094
All device types
1111 1111 111φ
+15.0
-15.0
+5.0
1111 1111 1110
KA
13
E628
V
0000 0000 000φ
"
"
"
0000 0000 0000
"
"
E629
"
451
"
"
"
0000 0000 0001
"
"
E630
"
0000 0000 00φφ
-1.0
1.0
LSB
LE1 = ((E629+E630)/2-1*S-E629 +S/2) / S
LE1
452
"
"
"
0000 0000 0010
"
"
E631
"
0000 0000 001φ
"
"
"
LE2 = ((E630+E631)/2-2*S-E629 +S/2) / S
LE2
0000 0000 0011
"
"
E632
"
0000 0000 0φφφ
453
"
"
"
0000 0000 0100
"
"
E633
"
0000 0000 010φ
"
"
"
LE3 = ((E632+E633)/2-4*S-E629 +S/2) / S
LE3
0000 0000 0111
"
"
E634
"
0000 0000 φφφφ
454
"
"
"
0000 0000 1000
"
"
E635
"
0000 0000 100φ
"
"
"
LE4 = ((E634+E635)/2-8*S-E629 +S/2) / S
LE4
0000 0000 1111
"
"
E636
"
0000 000φ φφφφ
455
"
"
"
0000 0001 0000
"
"
E637
"
0000 0001 000φ
"
"
"
LE5 = ((E636+E637)/2-16*S-E629 +S/2) / S
LE5
0000 0001 1111
"
"
E638
"
0000 00φφ φφφφ
456
"
"
"
0000 0010 0000
"
"
E639
"
0000 0010 000φ
"
"
"
LE6 = ((E638+E639)/2-32*S-E629 +S/2) / S
LE6
0000 0011 1111
"
"
E640
"
0000 0φφφ φφφφ
457
"
"
"
0000 0100 0000
"
"
E641
"
0000 0100 000φ
"
"
"
LE7 = ((E640+E641)/2-64*S-E629 +S/2) / S
LE7
0000 0111 1111
"
"
E642
"
0000 φφφφ φφφφ
458
"
"
"
0000 1000 0000
"
"
E643
"
0000 1000 000φ
"
"
"
LE8 = ((E642+E643)/2-128*S-E629 +S/2) / S
LE8
0000 1111 1111
"
"
E644
"
000φ φφφφ φφφφ
459
"
"
"
0001 0000 0000
"
"
E645
"
0001 0000 000φ
"
"
"
LE9 = ((E644+E645)/2-256*S-E629 +S/2) / S
LE9
0001 1111 1111
"
"
E646
"
00φφ φφφφ φφφφ
460
"
"
"
0010 0000 0000
"
"
E647
"
0010 0000 000φ
"
"
"
LE10 = ((E646+E647)/2-512*S-E629 +S/2) / S
LE10
0010 1111 1111
"
"
E648
"
001φ φφφφ φφφφ
461
"
"
"
0011 0000 0000
"
"
E649
"
0011 0000 000φ
"
"
"
LE11 = ((E648+E649)/2-768*S-E629 +S/2) / S
LE11
0011 1111 1111
"
"
E650
"
0φφφ φφφφ φφφφ
462
"
"
"
0100 0000 0000
"
"
E651
"
0100 0000 000φ
"
"
"
LE12 = ((E650+E651)/2-1024*S-E629 +S/2) / S
LE12
0100 1111 1111
"
"
E652
"
010φ φφφφ φφφφ
463
"
"
"
0101 0000 0000
"
"
E653
"
0101 0000 000φ
"
"
"
LE13 = ((E652+E653)/2-1280*S-E629 +S/2) / S
LE13
0101 1111 1111
"
"
E654
"
01φφ φφφφ φφφφ
464
"
"
"
0110 0000 0000
"
"
E655
"
0110 0000 000φ
"
"
"
LE14 = ((E654+E655)/2-1536*S-E629 +S/2) / S
LE14
0110 1111 1111
"
"
E656
"
011φ φφφφ φφφφ
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