*MC660 Series Series Motorola's MHTL integrated circuits especial
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MITO,
*MC660 Series Series
Motorola's MHTL integrated circuits especially designed meet requirements industrial applications because outstanding noise immunity. MHTL circuits provide error-free operation high noise environments beyond tolerance other integrated circuit families. Multifunction packages broad operating temperature range further tailor this device family industrial designer's requirements.
cermaic dual in-line devices available with specification over temperature range and/or with hi-rel processing special order. your Motorola representative pricing.
MHTL, MTTL, MRTL trademarks Motorola Inc.
SUFFIX
PLASTIC PACKAGE CASE
SUFFIX
PLASTIC PACKAGE CASE
SUFFIX
PLASTIC PACKAGE CASE
SUFFIX
PLASTIC PACKAGE CASE
SUFFIX
CERAMIC PACKAGE CASE
SUFFIX
CERAMIC PACKAGE CASE
FUNCTIONS CHARACTERISTICS (Vcc= Vdc,
Function Type Loading Factor Each Output Propagation Delay Power Dissipation typ/pkg Case
Expandable Dual 4-lnput NAND Gate (active pullup) 88/26(2) 632,646
Expandable Dual 4-lnput NAND Gate (passive pullup) MC661 88/26 632,646
Expandable Dual 4-lnput Line Driver (NAND) MC662 180/26 632,646
Dual lip- Flop MC663 632,646
Master Slave Flip Flop 632,646
Triple Level Translator MC665 MDTL=8 MTTL MRTL (MDTL) (MRTL) 632,646
Triple Level Translator MC666 632,646
Dual Monostable Multivibrator MC667 632,646
Quad 2-lnput NAND Gate (passive pullup) MC668 176/52 632,646
Dual Input Expander MC669 632,646
Triple 3-lnput NAND Gate (passive pullup) MC670 132/39 632,646
Triple Input NAND Gate (active pullup) MC671 132/39 632,646
Quad Input NAND Gate (active pullup) MC672 176/52 632,646
Dual Input OR-INVERT Gate (active pullup) MC673 160/50 632,646
Dual Input AND-OR-I VERT Gate (passive pullup) MC674 160/50 632,646
Dual Pulse Stretcher/Multivibrator MC675 (pins 1,6) (pins 5,6) 632,646
Decimal Decoder-Driver MC676 620,648
Inverter With Strobe (active pullup) MC677 246/96 620,648
Inverter With Strobe (without output resistors) MC678 192/96 620,648
Dual Lamp/Line Driver MC679.B 250/30 632,646
Inverter (active pullup) MC680 246/96 632,646
Inverter (open collector) MC681 192/96 632,646
Quad Latch MC682 620,648
Quad Input Exclusive Gate MC683 632,646
Decade Counter MC684 620,648
Binary Counter MC685 620,648
Shift Register MC686 620,648
Dual Flip-Flop MC688 620,648
inverter (high voltage) MC689 173/55 632,646
Inverter (active pullup) MC690 173/55 632,646
Inverter/Interface Element MC691 500/150 632,646
Quad 2-lnput NAND Gate (Schmitt Trigger) MC693 620,648
nterface Element. Line Driver/Receiver Scfv-itt Trigger) MC696 225/60 620,648
(Passive Pull-up) MC697 246/96 632,646
Dual 2-lnput Gate (Schmitt Trigger) MC699 675,676
danotts Ceramic Package, denotes Dual In-Line Plastic Package (i.e., MC660L Dual In-Line Ceramic,
WC66OP Duat Lin* Package) input
LOGIC DIAGRAMS
r-GATES
MC660 Expandable Dual 4-lnput NAND Gate
(active output pullup)
6(10)
8(10)
typ/pkg (Inputs High) typ/pkg (Input Low)
MC661 Expandable Dual 4-lnput NAND Gate
(passive output pullup)
6(10)
8(10)
typ/pkg (Inputs High) typ/pkg (Input Low)
MC668 Quad 2-lnput NAND Gate
(passive output pullup)
5-9-
10-12-13-
(10) (10) (10) (10)
3=1-2
typ/pkg (Inputs High) typ/pkg (Input Low)
MC670 Triple 3-lnput NAND Gate
(passive output pullup)
MC671 Triple 3-lnput NAND Gate
(active output pullup)
MC672 Quad 2-lnput NAND Gate
(active output pullup)
12(10)
loll
13-1
(10)
(10)
12(10)
10->12-)
(10)
(10)
(10)
(10)
typ/pkg (Inputs High) typ/pkg (Input Low)
typ/pkg (Inputs High) typ/pkg (Input Low)
3=1-2
typ/pkg (Inputs High) typ/pkg (Input Low)
MC673
Expandable Dual 2-Wide 2-lnput AND-OR-INVERT Gate
(active output pullup)
1)13-1)12 1)10-1)
typ/pkg (Inputs High) typ/pkg (Input Low)
MC674
Expandable Dual 2-Wide 2-lnput AND-OR-INVERT Gate
(passive output pullup)
6(10)
([3]
typ/pkg (Inputs High) typ/pkg (Input Low)
Numbers ends terminals represent numbers. Numoers parenthesis indicate loading.
IVCC Case 632; Case 620.)
rGATES (continued)
MC683 Quad 2-lnput Exclusive
(10)
(10)
(10)
(10)
3=1*2
typ/pkg
FLIP-FLOPS-
MC663 Dual Flip-Flop
fTog typ/pkg
TRUTH TABLE
Direct input (Rq) must high.
state
high state
time period prior negative transition clock pulse time period subsequent negative transition clock pulse state output time period
NOTE: state direct reset causes ajow state output complement output.
MC664 Master-Slave Flip-Flop
ioni
4-(3)
fTog typ/pkg
DIRECT INPUT OPERATION
CLOCKED OPERATION
t.,,
Direct inputs (Rq, must high.
Clock lnput(C)must
state
high state change allowed
state input does not'affect state circuit indeterminate state
time period prior negative transition clock pulse
time period subsequent negative transition clock pulse state output time period
(continued)
LOGIC DIAGRAMS FLIP-FLOPS (continued)-
MC682 Quad Latch
(10)
(10)
(10)
(10)
(10) (10)
(10)
(10)
typ/pkg
MC688 Dual Flip-Flop
TRUTH TABLE
*n+1
(10)
(10) ln+1
state
High state Don't care
Time period prior negative
transition clock pulse. Time period subsequent negative transition clock pulse.
State output time
period Clock pulse must state
fTog typ/pkg
rEXPANDER
MC669 Dual 4-lnput Expander
9-(1) 10-lD
^DRIVERS
MC662 Expandable Dual 4-lnput Line Driver
(active output pullup)
typ/pkg (Inputs High) typ/pkg (Input Low)
MC679, MC679B Dual Lamp Driver
(Inputs H.gn (Input Lo.i
MC665 Triple Lewel Translator
MHTL
(MDTL (MTTL 5.5) (MRTL
typ/pkg (MDTL) typ/pkg (MRTL)
MC666 Triple Level Translator
(10)
typ/pkg
rINVERTERS
MC691 Inverter/Translator
(low level high level)
Positive Logic:
Input Loading Factor Output Loading Factor Propagation Delay Time: Typical Total Power Dissipation: Inputs High typ/pkg Input typ/pkg
MC677 Inverter With/Strobe
(active pullup)
3-(1)
6-(1)
(10)
(10)
(1)10-
(1)13-
(1)15-(1)12-
typ/pkg (Inputs High) typ/pkg (Input Low)
MC678 Inverter With/Strobe
(without output resistors)
typ/pkg (Inputs High) typ/pkg (Inputs Low)
(continued)
LOGIC DIAGRAMS
INVERTERS (continued)
MC680 Inverter
(active pullup)
(10)
(10)
(10) (10) (10) (10)
typ/pkg (Inputs High) typ/pkg (Input Low)
MC681 MC697
Inverter Inverter
(open collector) (passive pull-up)
(10) (10) (10) (10) (10) 12(10)
typ/pkg (Inputs High) typ/pkg (Input Low)
MC689 Inverter
(high voltage)
(10)
(10)
(10)
(10) (10) (10)
typ/pkg (Inputs High) typ/pkg (Inputs Low)
MC690 Inverter
(active pullup)
(10) (10) (10) (10) (10) (10)
typ/pkg (Inputs High) typ/pkg (Inputs Low)
rMULTIVIBRATORS-
r-COUNTERS
10-(2) 14-(1)
MC684 Decade Counter
TCout '-in
(10) (10) (10) (10) (10)
f-|-0g typ/pkg
2-(2) 5-(2) 10-(2) 14-(1)
MC68S Binary Counter
TCout ^-in
(10) (10) (10) (10) (10)
TTog
typ/pkg
DECODER
MC676
BCD-To-Decimal Decoder-Driver
Power Dissipation typ/pkg
REGISTER
MC686 4-Bit Shift Register
-(2) 2-(2)
10-d
14-d
*Tog
(10) (10) (10) (10) (10>
typ/pkg
LOGIC DIAGRAMS
line driver/receiver
MC696 Dual Interface Element, Line Driver/Receiver
(1/2 Device Shown)
(12)
(11)
(10) 60-(14)
(13)
(15)
Numbers parenthesis denotes numbers other half device.
typ/pkg (Inputs High) typ/pkg (Inputs Low)
r-DRIVERS-
MC693
Quad 2-lnput IMAND Driver
(open collector, high voltage output with inductive load clamp) (Schmitt Trigger Inputs)
(.4)
(.4)
(.4)
(.4)
(4)100-
(200)
(200)
(.4)140-
(.4)150-
-011 (200) -012
-013 (200)
Typ/Pkg.
MC699
Dual 2-lnput Gate/Driver (high voltage output) (Schmitt Trigger Inputs)
(.4)
(.4)
(.4)
Open Emiter Open Collector
(400)
<400>
Positive Logic (with Gnd): 6=1-2 Input Loading Factor 0.415* Propagation Delay Time typ' Typical Total Power Dissipation typ/pkg*
MAXIMUM RATINGS
Rating Symbol Value Unit
Power Supply Voltage Continuous Pulsed.
nput Voltage MC666 MDTL MRTL Others
Output Current (into outputs) MC662 MC663 MC664 MC669 Others except Power Drivers
Input Reverse Current mAdc
Forward Current (individual) MC669P mAdc
Operating Temperature Range
Storage Temperature Range Tstg
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