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HPC16064 Datasheet, PDF (6/36 Pages) National Semiconductor (TI) – High-Performance microController
30 MHz (Continued)
AC Electrical Characteristics
(See Notes 1 and 4 and Figure 1 through Figure 5 ) VCC 5V g10% unless otherwise specified TA 0 C to a70 C for
HPC46064 46004 b40 C to a85 C for HPC36064 36004 b40 C to a105 C for HPC26064 26004 b55 C to a125 C for
HPC16064 16004
Symbol and Formula
Parameter
Min Max Units
Notes
tDC1ALER
Delay from CKI Rising Edge to
ALE Rising Edge
0
35
ns
(Notes 1 2)
tDC1ALEF
Delay from CKI Rising Edge to
ALE Falling Edge
0
35
ns
(Notes 1 2)
tDC2ALER
tC a 20
Delay from CK2 Rising Edge to
ALE Rising Edge
37
ns
(Note 2)
tDC2ALEF
tC a 20
Delay from CK2 Falling Edge to
ALE Falling Edge
37
ns
(Note 2)
tLL
tC b 9
tST
tC b 7
ALE Pulse Width
Setup of Address Valid before
ALE Falling Edge
24
ns
9
ns
tVP
tC b 5
Hold of Address Valid after
ALE Falling Edge
11
ns
tARR
tC b 5
ALE Falling Edge to RD Falling Edge
11
ns
tACC tC a WS b 32
Data Input Valid after Address Output Valid
100
ns
tRD
tC a WS b 39
Data Input Valid after RD Falling Edge
60
ns
tRW
tC a WS b 14
RD Pulse Width
85
ns
tDR
tC b 15
Hold of Data Input Valid after
RD Rising Edge
0
35
ns
(Note 6)
tRDA tC b 15
Bus Enable after RD Rising Edge
51
ns
tARW
tC b 5
ALE Falling Edge to WR Falling Edge
28
ns
tWW
tC a WS b 15 WR Pulse Width
101
ns
tV
tC a WS b 5
Data Output Valid before WR Rising Edge
94
ns
tHW
tC b 10
Hold of Data Valid after WR Rising Edge
7
ns
tDAR
tC a WS b 50
Falling Edge of ALE to
Falling Edge of RDY
33
ns
tRWP tC
RDY Pulse Width
66
ns
Note CL 40 pF
Note 1 These AC characteristics are guaranteed with external clock drive on CKI having 50% duty cycle and with less than 15 pF load on CKO with rise and fall
times (tCKIR and tCKIL) on CKI input less than 2 5 ns
Note 2 Do not design with these parameters unless CKI is driven with an active signal When using a passive crystal circuit its stability is not guaranteed if either
CKI or CKO is connected to any external logic other than the passive components of the crystal circuit
Note 3 tHAE is spec’d for case with HLD falling edge occurring at the latest time it can be accepted during the present CPU cycle being executed If HLD falling
edge occurs later tHAE may be as long as (3 tC a 4WS a 72 tC a 100) may occur depending on the following CPU instruction cycles its wait states and ready
input
Note 4 WS (tWAIT) c (number of preprogrammed wait states) Minimum and maximum values are calculated at maximum operating frequency tC 30 MHz with
one wait state programmed
Note 5 Due to emulation restrictions actual limits will be better
Note 6 This is guaranteed by design and not tested
6