Electrical Characteristics
(Continued) V
a
e a
5 00V and V
b
e b
5 00V unless otherwise specified
Boldface limits apply for T
MIN
to T
MAX
all other limits T
A
e
T
J
e
25 C
MF10ACN MF10CCN
MF10ACWM MF10CCWM
Symbol
Parameter
Conditions
Typical
(Note 8)
g
4 25
g
4 25
MF10CCJ MF10AJ
Tested Design
Tested Design Units
Typical
Limit
Limit
Limit
Limit
(Note 8)
(Note 9) (Note 10)
(Note 9) (Note 10)
g
3 8
g
3 8
g
3 8
g
3 8
g
4 25
g
4 25
g
3 8
g
3 6
V
OUT
GBW
SR
Minimum Output
Voltage Swing
BP LP Pins
R
L
e
5k
V
V
MHz
V
ms
dB
dB
mA
mA
N AP HP Pin R
L
e
3 5k
Op Amp Gain BW Product
Op Amp Slew Rate
Dynamic Range
(Note 6)
V
pin12
e a
5V
(f
CLK
f
O
e
50)
V
pin12
e
0V
(f
CLK
f
O
e
100)
25
7
83
80
20
30
25
7
83
80
20
30
all other limits T
A
e
T
J
e
25 C
MF10CCJ MF10AJ
I
SC
Maximum Output Short Source
Circuit Current (Note 7) Sink
Logic Input Characteristics
Boldface limits apply for T
MIN
to T
MAX
MF10ACN MF10CCN
MF10ACWM MF10CCWM
Parameter
Conditions
Typical
(Note 8)
Tested
Design
Tested
Design Units
Typical
Limit
Limit
Limit
Limit
(Note 8)
(Note 9) (Note 10)
(Note 9) (Note 10)
a
3 0
b
3 0
a
8 0
a
2 0
a
2 0
a
0 8
a
2 0
a
0 8
a
3 0
b
3 0
a
8 0
a
2 0
a
2 0
a
0 8
a
2 0
a
0 8
a
3 0
b
3 0
a
8 0
a
2 0
a
2 0
a
0 8
a
2 0
a
0 8
CMOS Clock Min Logical ‘‘1’’ V
a
e a
5V V
b
e b
5V
Input Voltage Max Logical ‘‘0’’ V
LSh
e
0V
Min Logical ‘‘1’’
V
a
e a
10V V
b
e
0V
e a
5V
Max Logical ‘‘0’’ V
LSh
TTL Clock
Min Logical ‘‘1’’ V
a
e a
5V V
b
e b
5V
e
0V
Input Voltage
V
Max Logical ‘‘0’’
LSh
Min Logical ‘‘1’’
V
a
e a
10V V
b
e
0V
Max Logical ‘‘0’’ V
LSh
V
V
V
V
V
V
V
V
Note 1
Absolute Maximum Ratings indicate limits beyond which damage to the device may occur DC and AC electrical specifications do not apply when operating
the device beyond its specified operating conditions
Note 2
When the input voltage (V
IN
) at any pin exceeds the power supply rails (V
IN
k
V
b
or V
IN
l
V
a
) the absolute value of current at that pin should be limited
to 5 mA or less The 20 mA package input current limits the number of pins that can exceed the power supply boundaries with a 5 mA current limit to four
Note 3
The maximum power dissipation must be derated at elevated temperatures and is dictated by T
JMAX
i
JA
and the ambient temperature T
A
The maximum
allowable power dissipation at any temperature is P
D
e
(T
JMAX
b
T
A
)
i
JA
or the number given in the Absolute Maximum Ratings whichever is lower For this
device T
JMAX
e
125 C and the typical junction-to-ambient thermal resistance of the MF10ACN CCN when board mounted is 55 C W For the MF10AJ CCJ this
number increases to 95 C W and for the MF10ACWM CCWM this number is 66 C W
Note 4
The accuracy of the Q value is a function of the center frequency (f
O
) This is illustrated in the curves under the heading ‘‘Typical Performance
Characteristics’’
Note 5
V
OS1
V
OS2
and V
OS3
refer to the internal offsets as discussed in the Applications Information Section 3 4
Note 6
For
g
5V supplies the dynamic range is referenced to 2 82V rms (4V peak) where the wideband noise over a 20 kHz bandwidth is typically 200
mV
rms for
the MF10 with a 50 1 CLK ratio and 280
mV
rms for the MF10 with a 100 1 CLK ratio
Note 7
The short circuit source current is measured by forcing the output that is being tested to its maximum positive voltage swing and then shorting that output to
the negative supply The short circuit sink current is measured by forcing the output that is being tested to its maximum negative voltage swing and then shorting
that output to the positive supply These are the worst case conditions
Note 8
Typicals are at 25 C and represent most likely parametric norm
Note 9
Tested limits are guaranteed to National’s AOQL (Average Outgoing Quality Level)
Note 10
Design limits are guaranteed but not 100% tested These limits are not used to calculate outgoing quality levels
Note 11
Human body model 100 pF discharged through a 1 5 kX resistor
3
NSC [ NATIONAL SEMICONDUCTOR ]
