MAX3392EETDT [MAXIM]
15kV ESD-Protected, 1uA, 16Mbps, Dual Quad Low-Voltage Level Translators in UCSP;型号: | MAX3392EETDT |
厂家: | MAXIM INTEGRATED PRODUCTS |
描述: | 15kV ESD-Protected, 1uA, 16Mbps, Dual Quad Low-Voltage Level Translators in UCSP |
文件: | 总26页 (文件大小:357K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
MAX3372ꢀ–MAX3379ꢀ/
MAX3390ꢀ–MAX3393ꢀ
±±15k ꢀEDꢁ-rotected, ±µA, ±6Mbps, Dual/Quad
Lowꢁkoltage Level Translators in UCE-
General Description
Features
The MAX3372E–MAX3379E and MAX3390E–MAX3393E
±±15k EꢀSD-proeꢁoed ꢂeꢃeꢂ opanꢄꢂaorpꢄ -prꢃvde ohe ꢂeꢃeꢂ
ꢄhvfovng neꢁeꢄꢄapy or aꢂꢂrw daoa opanꢄfep vn a muꢂovꢃrꢂoage
o Guaranteed Data Rate Options
230kbps
8Mbps (+1.2V ≤ V ≤ V
≤ +5.5V)
L
CC
ꢄyꢄoem. Exoepnaꢂꢂy a--ꢂved ꢃrꢂoageꢄ, k
and k , ꢄeo ohe
L
CC
10Mbps (+1.2V ≤ V ≤ V
≤ +3.3V)
CC
CC
L
ꢂrgvꢁ ꢂeꢃeꢂꢄ rn evohep ꢄvde rf ohe deꢃvꢁe. A ꢂrwDꢃrꢂoage
16Mbps (+1.8V ≤ V ≤ V
≤ +2.5V and
L
ꢂrgvꢁ ꢄvgnaꢂ -peꢄeno rn ohe k ꢄvde rf ohe deꢃvꢁe a--eapꢄ
L
+2.5V ≤ V ≤ V
+3.3V)
L
CC
aꢄ a hvghDꢃrꢂoage ꢂrgvꢁ ꢄvgnaꢂ rn ohe k
ꢄvde rf ohe
CC
deꢃvꢁe, and ꢃvꢁeDꢃepꢄa. The MAX3374E/MAX3371E/
MAX3376E/MAX3379E and MAX3390E–MAX3393E unvdvD
peꢁovrnaꢂ ꢂeꢃeꢂ opanꢄꢂaorpꢄ ꢂeꢃeꢂ ꢄhvfo daoa vn rne dvpeꢁovrn
o Bidirectional Level Translation
(MAX3372E/MAX3373E and
MAX3377E/MAX3378E)
(k → k
rp k
→ k ) rn any ꢄvngꢂe daoa ꢂvne. The
L
CC
CC L
o Operation Down to +1.2V on V
L
MAX3372E/MAX3373E and MAX3377E/MAX3378E bvdvD
peꢁovrnaꢂ ꢂeꢃeꢂ opanꢄꢂaorpꢄ uovꢂvze a opanꢄmvꢄꢄvrnDgaoeD
baꢄed deꢄvgn (Fvgupe 2) or aꢂꢂrw daoa opanꢄꢂaovrn vn evohep
o
15kV EꢀD ꢁrotection on ꢂ/O V
Lines
CC
o Ultra-Low 1µA ꢀupply Current in Three-ꢀtate
Output Mode
dvpeꢁovrn (k ↔ k ) rn any ꢄvngꢂe daoa ꢂvne. The
L
CC
MAX3372E–MAX3379E and MAX3390E–MAX3393E
aꢁꢁe-o k fprm +±.2k or +1.1k and k fprm +±.61k or
o Low-Quiescent Current (130µA typ)
L
CC
+1.1k, ma5vng ohem vdeaꢂ frp daoa opanꢄfep beoween ꢂrwD
ꢃrꢂoage AꢀICꢄ/PLSꢄ and hvghep ꢃrꢂoage ꢄyꢄoemꢄ.
o UCꢀꢁ, TDFN, ꢀOT23, and TꢀꢀOꢁ ꢁackages
o Thermal ꢀhort-Circuit ꢁrotection
Aꢂꢂ deꢃvꢁeꢄ vn ohe MAX3372E–MAX3379E, MAX3390E–
MAX3393E famvꢂy feaoupe a ohpeeDꢄoaoe ruo-uo mrde ohao
peduꢁeꢄ ꢄu--ꢂy ꢁuppeno or ꢂeꢄꢄ ohan ±µA, ohepmaꢂ ꢄhrpoD
Ordering Information
ꢁvpꢁuvo -proeꢁovrn, and ±±15k EꢀS -proeꢁovrn rn ohe k
CC
ꢁꢂN-
ꢁACKAGE
ꢄvde frp gpeaoep -proeꢁovrn vn a--ꢂvꢁaovrnꢄ ohao pruoe ꢄvgD
naꢂꢄ exoepnaꢂꢂy. The MAX3372E/MAX3377E r-epaoe ao a
guapanoeed daoa paoe rf 2305b-ꢄ. ꢀꢂewDpaoe ꢂvmvovng
peduꢁeꢄ EMI emvꢄꢄvrnꢄ vn aꢂꢂ 2305b-ꢄ deꢃvꢁeꢄ. The
MAX3373E–MAX3376E/MAX3378E/MAX3379E and
MAX3390E–MAX3393E r-epaoe ao a guapanoeed daoa paoe
rf 8Mb-ꢄ rꢃep ohe enovpe ꢄ-eꢁvfved r-epaovng ꢃrꢂoage
pange. Wvohvn ꢄ-eꢁvfvꢁ ꢃrꢂoage drmavnꢄ, hvghep daoa paoeꢄ
ape -rꢄꢄvbꢂe. (ꢀee ohe Tvmvng Chapaꢁoepvꢄovꢁꢄ oabꢂe.)
ꢁART
TEMꢁ RANGE
MAX3372EEKA+T
D40°C or +81°C
8 ꢀOT23
+Senroeꢄ a ꢂeadDfpee -aꢁ5age.
T = Ta-e and peeꢂ.
Ordering ꢂnformation continued at end of data sheet.
ꢀelector Guide appears at end of data sheet.
UCꢀP vꢄ a opademap5 rf Maxvm Inoegpaoed Pprduꢁoꢄ, Inꢁ.
MICROWIRE vꢄ a pegvꢄoeped opademap5 rf Naovrnaꢂ
ꢀemvꢁrnduꢁorp Crp-.
The MAX3372E–MAX3376E ape duaꢂ ꢂeꢃeꢂ ꢄhvfoepꢄ
aꢃavꢂabꢂe vn 3 x 3 UCꢀP™, 8D-vn TSFN, and 8D-vn
ꢀOT23D8 -aꢁ5ageꢄ. The MAX3377E/MAX3378E/
MAX3379E and MAX3390E–MAX3393E ape quad ꢂeꢃeꢂ
ꢄhvfoepꢄ aꢃavꢂabꢂe vn 3 x 4 UCꢀP, ±4D-vn TSFN, and ±4D
-vn TꢀꢀOP -aꢁ5ageꢄ.
-in Configurations
TOP VIEW
I/O V 1
________________________Applications
+
ꢀPI, MICROWIRE®, and I2C Leꢃeꢂ
Tpanꢄꢂaovrn
1
2
3
4
5
6
7
14
V
CC
L
I/O V 2
L
13 I/0 V
12 I/0 V
11 N.C.
1
2
CC
MAX3377E/
MAX3378E
LrwDkrꢂoage AꢀIC Leꢃeꢂ Tpanꢄꢂaovrn
ꢀmapo Capd Readepꢄ
CeꢂꢂDPhrne Cpadꢂeꢄ
Prpoabꢂe POꢀ ꢀyꢄoemꢄ
Prpoabꢂe Crmmunvꢁaovrn Seꢃvꢁeꢄ
LrwDCrꢄo ꢀepvaꢂ Inoepfaꢁeꢄ
Ceꢂꢂ Phrneꢄ
THREE-STATE
N.C.
CC
I/O V 3
10
9
V
L
L
I/O V 4
L
I/0 V
I/0 V
3
CC
4
GND
8
CC
TDFN-14
(3mm x 3mm)
GPꢀ
Pvn Crnfvgupaovrnꢄ ꢁrnovnued ao end rf daoa ꢄheeo.
Teꢂeꢁrmmunvꢁaovrnꢄ Equv-meno
For pricing, delivery, and ordering information, please contact Maxim Direct
at 1-888-629-4642, or visit Maxim’s website at www.maximintegrated.com.
±9D2328; Reꢃ 3; ±/±3
MAX3372ꢀ–MAX3379ꢀ/MAX3390ꢀ–MAX3393ꢀ
±±15k ꢀEDꢁ-rotected, ±µA, ±6Mbps, Dual/Quad
Lowꢁkoltage Level Translators in UCE-
ABꢀOLUTE MAXꢂMUM RATꢂNGꢀ
(Aꢂꢂ ꢃrꢂoageꢄ pefepenꢁed or GNS.)
8DPvn TSFN (depaoe ±8.1mW/°C abrꢃe +70°C) ........±482mW
3 x 3 UCꢀP (depaoe 4.7mW/°C abrꢃe +70°C) ............379mW
3 x 4 UCꢀP (depaoe 6.1mW/°C abrꢃe +70°C) ............120mW
±4DPvn TꢀꢀOP (depaoe 9.±mW/°C abrꢃe +70°C) ........727mW
±4DPvn TSFN (depaoe ±8.1mW/°C abrꢃe +70°C) ......±482mW
O-epaovng Tem-epaoupe Range ...........................D40°C or +81°C
ꢀorpage Tem-epaoupe Range.............................D61°C or +±10°C
Lead Tem-epaoupe (ꢄrꢂdepvng, ±0ꢄ) .................................+300°C
ꢀrꢂdepvng Tem-epaoupe (pefꢂrw) .......................................+260°C
k
I/O k
...........................................................................D0.3k or +6k
CC
......................................................D0.3k or (k
+ 0.3k)
CC_
CC
L
L
I/O k ...........................................................D0.3k or (k + 0.3k)
L_
THREE-STATE...............................................D0.3k or (k + 0.3k)
ꢀhrpoDCvpꢁuvo Supaovrn I/O k , I/O k
or GNS...........Crnovnuruꢄ
L
CC
ꢀhrpoDCvpꢁuvo Supaovrn I/O k rp I/O k
or GNS
L
CC
Spvꢃen fprm 40mA ꢀrupꢁe
(exꢁe-o MAX3372E and MAX3377E) .....................Crnovnuruꢄ
Crnovnuruꢄ Prwep Svꢄꢄv-aovrn (T = +70°C)
A
8DPvn ꢀOT23 (depaoe 1.6mW/°C abrꢃe +70°C)........444.4mW
ꢀopeꢄꢄeꢄ beyrnd ohrꢄe ꢂvꢄoed undep “Abꢄrꢂuoe Maxvmum Raovngꢄ” may ꢁauꢄe -epmaneno damage or ohe deꢃvꢁe. Theꢄe ape ꢄopeꢄꢄ paovngꢄ rnꢂy, and funꢁovrnaꢂ
r-epaovrn rf ohe deꢃvꢁe ao oheꢄe rp any rohep ꢁrndvovrnꢄ beyrnd ohrꢄe vndvꢁaoed vn ohe r-epaovrnaꢂ ꢄeꢁovrnꢄ rf ohe ꢄ-eꢁvfvꢁaovrnꢄ vꢄ nro vm-ꢂved. Ex-rꢄupe or
abꢄrꢂuoe maxvmum paovng ꢁrndvovrnꢄ frp exoended -epvrdꢄ may affeꢁo deꢃvꢁe peꢂvabvꢂvoy.
ELECTRꢂCAL CHARACTERꢂꢀTꢂCꢀ
(k
= +±.61k or +1.1k, k = +±.2k or (k
+ 0.3k), GNS = 0, I/O k and I/O k
unꢁrnneꢁoed, T = T
or T
, unꢂeꢄꢄ rohepD
MAX
CC
L
CC
L_
CC_
A
MIN
wvꢄe nroed. Ty-vꢁaꢂ ꢃaꢂueꢄ ape ao k
= +3.3k, k = +±.8k, T = +21°C.) (Nroeꢄ ±, 2)
A
L
CC
ꢁARAMETER
ꢀYMBOL
CONDꢂTꢂONꢀ
MꢂN
TYꢁ
MAX
UNꢂTꢀ
ꢁOWER ꢀUꢁꢁLꢂEꢀ
k ꢀu--ꢂy Range
k
±.2
1.1
1.10
300
±00
k
L
L
k
ꢀu--ꢂy Range
k
±.61
k
CC
CC
ꢀu--ꢂy Cuppeno fprm k
I
±30
±6
µA
µA
CC
L
QkCC
ꢀu--ꢂy Cuppeno fprm k
I
QkL
k
ThpeeDꢀoaoe Ouo-uo Mrde
CC
I
I
T
T
= +21°C, THREE-STATE = GNS
= +21°C, THREE-STATE = GNS
0.03
0.03
±
±
µA
µA
THREEDꢀTATEDkCC
A
ꢀu--ꢂy Cuppeno
k ThpeeDꢀoaoe Ouo-uo Mrde
L
ꢀu--ꢂy Cuppeno
I
THREEDꢀTATEDkL
A
ThpeeDꢀoaoe Ouo-uo Mrde
Lea5age Cuppeno
I/O k and I/O k
T
T
= +21°C, THREE-STATE = GNS
= +21°C
0.02
0.02
±
±
µA
µA
THREEDꢀTATEDLKG
A
L_
CC_
THREE-STATE Pvn In-uo Lea5age
A
EꢀD ꢁROTECTꢂON
IEC ±000D4D2 AvpDGa- Svꢄꢁhapge
IEC ±000D4D2 Crnoaꢁo Svꢄꢁhapge
Human Brdy Mrdeꢂ
±8
±8
I/O k
(Nroe 3)
5k
CC
±±1
LOGꢂC-LEVEL THREꢀHOLDꢀ (MAX3372E/MAX3377E)
I/O k In-uoDkrꢂoage Hvgh
k
k D 0.2
L
k
k
L_
IHL
I/O k In-uoDkrꢂoage Lrw
k
0.±1
L_
ILL
2
Maxvm Inoegpaoed
MAX3372ꢀ–MAX3379ꢀ/MAX3390ꢀ–MAX3393ꢀ
±±15k ꢀEDꢁ-rotected, ±µA, ±6Mbps, Dual/Quad
Lowꢁkoltage Level Translators in UCE-
ELECTRꢂCAL CHARACTERꢂꢀTꢂCꢀ (continued)
(k
= +±.61k or +1.1k, k = +±.2k or (k
+ 0.3k), GNS = 0, I/O k and I/O k
unꢁrnneꢁoed, T = T
or T
, unꢂeꢄꢄ rohepD
MAX
CC
L
CC
L_
CC_
A
MIN
wvꢄe nroed. Ty-vꢁaꢂ ꢃaꢂueꢄ ape ao k
= +3.3k, k = +±.8k, T = +21°C.) (Nroeꢄ ±, 2)
CC
A
L
ꢁARAMETER
ꢀYMBOL
CONDꢂTꢂONꢀ
MꢂN TYꢁ
k D 0.4
CC
MAX
UNꢂTꢀ
I/O k
I/O k
In-uoDkrꢂoage Hvgh
In-uoDkrꢂoage Lrw
k
k
k
CC_
IHC
k
0.±1
CC_
ILC
I/O k ꢄrupꢁe ꢁuppeno = 20µA,
L_
✕
I/O k Ouo-uoDkrꢂoage Hvgh
k
0.67
0.67
k
k
k
k
k
k
k
L_
OHL
L
I/O k
> k
D 0.4k
CC
CC_
I/O k ꢄvn5 ꢁuppeno = 20µA,
L_
I/O k Ouo-uoDkrꢂoage Lrw
k
0.4
0.4
L_
OLL
I/O k
< 0.±1k
CC_
I/O k
ꢄrupꢁe ꢁuppeno = 20µA,
CC_
✕
I/O k
I/O k
Ouo-uoDkrꢂoage Hvgh
Ouo-uoDkrꢂoage Lrw
k
OHC
k
CC_
CC
I/O k > k D 0.2k
L _
L
I/O k
ꢄvn5 ꢁuppeno = 20µA,
CC_
k
CC_
OLC
I/O k < 0.±1k
L_
THREE-STATE In-uoDkrꢂoage
Hvgh
k
k D 0.2
L
ILDTHREE-STATE
ILDTHREE-STATE
THREE-STATE In-uoDkrꢂoage
Lrw
k
0.±1
LOGꢂC-LEVEL THREꢀHOLDꢀ (MAX3373E–MAX3376E/MAX3378E/MAX3379E and MAX3390E–MAX3393E)
I/O k In-uoDkrꢂoage Hvgh k D 0.2
k
k
k
k
k
L_
IHL
L
I/O k In-uoDkrꢂoage Lrw
k
0.±1
0.±1
L_
ILL
I/O k
In-uoDkrꢂoage Hvgh
In-uoDkrꢂoage Lrw
k
k D 0.4
CC
CC_
CC_
IHC
I/O k
k
ILC
I/O k ꢄrupꢁe ꢁuppeno = 20µA,
L_
✕
I/O k Ouo-uoDkrꢂoage Hvgh
k
0.67
0.67
k
k
k
k
k
k
k
L_
OHL
L
I/O k
≥ k
D 0.4k
CC
CC_
I/O k ꢄvn5 ꢁuppeno = ±mA,
L_
I/O k Ouo-uoDkrꢂoage Lrw
k
0.4
0.4
L_
OLL
I/O k
≤ 0.±1k
CC_
I/O k
ꢄrupꢁe ꢁuppeno = 20µA,
CC_
✕
I/O k
Ouo-uoDkrꢂoage Hvgh
Ouo-uoDkrꢂoage Lrw
k
OHC
k
CC_
CC_
CC
I/O k ≥ k D 0.2k
L_
L
I/O k
ꢄvn5 ꢁuppeno = ±mA,
CC_
I/O k
k
OLC
I/O k ≤ 0.±1k
L_
THREE-STATE In-uoDkrꢂoage
Hvgh
k
k D 0.2
L
IHDTHREE-STATE
THREE-STATE In-uoDkrꢂoage
Lrw
k
0.±1
ILDTHREE-STATE
Maxvm Inoegpaoed
3
MAX3372ꢀ–MAX3379ꢀ/MAX3390ꢀ–MAX3393ꢀ
±±15k ꢀEDꢁ-rotected, ±µA, ±6Mbps, Dual/Quad
Lowꢁkoltage Level Translators in UCE-
TꢂMꢂNG CHARACTERꢂꢀTꢂCꢀ
(k
= +±.61k or +1.1k, k = +±.2k or (k
+ 0.3k), GNS = 0, R
= ±MΩ, I/O oeꢄo ꢄvgnaꢂ rf Fvgupe ±, T = T
or T
, unꢂeꢄꢄ
MAX
CC
L
CC
LOAS
A
A
MIN
rohepwvꢄe nroed. Ty-vꢁaꢂ ꢃaꢂueꢄ ape ao k
= +3.3k, k = +±.8k, T = +21°C, unꢂeꢄꢄ rohepwvꢄe nroed.) (Nroeꢄ ±, 2)
CC
L
ꢁARAMETER
ꢀYMBOL
= 50pF)
CONDꢂTꢂONꢀ
MꢂN
TYꢁ
MAX
UNꢂTꢀ
MAX3372E/MAX3377E (C
LOAD
I/O k _ Rvꢄe Tvme (Nroe 4)
o
±±00
±000
600
nꢄ
nꢄ
nꢄ
nꢄ
CC
RkCC
I/O k _ Faꢂꢂ Tvme (Nroe 1)
o
FkCC
CC
I/O k _ Rvꢄe Tvme (Nroe 4)
o
RkL
L
I/O k _ Faꢂꢂ Tvme (Nroe 1)
L
o
±±00
FkL
I/O
I/O
Spvꢃvng I/O k _
±.6
±.6
100
kLDkCC
kCCDkL
ꢀKEW
L
Ppr-agaovrn Seꢂay
µꢄ
Spvꢃvng I/O k
_
CC
ChanneꢂDorDChanneꢂ ꢀ5ew
Maxvmum Saoa Raoe
o
Eaꢁh opanꢄꢂaorp equaꢂꢂy ꢂraded
C = 21-F
nꢄ
230
5b-ꢄ
L
MAX3373E–MAX3376E/MAX3378E/MAX3379E and MAX3390E–MAX3393E (C
= 15pF, Driver Output ꢂmpedance ≤ 50Ω)
LOAD
+1.2V ≤ V ≤ V
≤ +5.5V
L
CC
7
±70
6
21
400
37
I/O k _ Rvꢄe Tvme (Nroe 4)
o
nꢄ
nꢄ
nꢄ
nꢄ
CC
RkCC
O-enDdpavn dpvꢃvng
O-enDdpavn dpvꢃvng
O-enDdpavn dpvꢃvng
O-enDdpavn dpvꢃvng
I/O k _ Faꢂꢂ Tvme (Nroe 1)
o
FkCC
CC
20
8
10
30
I/O k _ Rvꢄe Tvme (Nroe 4)
o
RkL
L
±80
3
400
30
I/O k _ Faꢂꢂ Tvme (Nroe 1)
L
o
LFk
30
1
60
30
I/O
I/O
Spvꢃvng I/O k _
L
kLDkCC
kCCDkL
ꢀKEW
O-enDdpavn dpvꢃvng
O-enDdpavn dpvꢃvng
O-enDdpavn dpvꢃvng
2±0
4
±000
30
Ppr-agaovrn Seꢂay
nꢄ
nꢄ
Spvꢃvng I/O k _
CC
±90
±000
20
Eaꢁh opanꢄꢂaorp
equaꢂꢂy ꢂraded
ChanneꢂDorDChanneꢂ ꢀ5ew
Maxvmum Saoa Raoe
o
10
8
Mb-ꢄ
5b-ꢄ
O-enDdpavn dpvꢃvng
100
4
Maxvm Inoegpaoed
MAX3372ꢀ–MAX3379ꢀ/MAX3390ꢀ–MAX3393ꢀ
±±15k ꢀEDꢁ-rotected, ±µA, ±6Mbps, Dual/Quad
Lowꢁkoltage Level Translators in UCE-
TꢂMꢂNG CHARACTERꢂꢀTꢂCꢀ (continued)
(k
= +±.61k or +1.1k, k = +±.2k or (k
+ 0.3k), GNS = 0, R
= ±MΩ, I/O oeꢄo ꢄvgnaꢂ rf Fvgupe ±, T = T
or T
, unꢂeꢄꢄ
MAX
CC
L
CC
LOAS
A
A
MIN
rohepwvꢄe nroed. Ty-vꢁaꢂ ꢃaꢂueꢄ ape ao k
= +3.3k, k = +±.8k, T = +21°C, unꢂeꢄꢄ rohepwvꢄe nroed.) (Nroeꢄ ±, 2)
CC
L
ꢁARAMETER
+1.2V ≤ V ≤ V ≤ +3.3V
ꢀYMBOL
CONDꢂTꢂONꢀ
MꢂN
TYꢁ
MAX
UNꢂTꢀ
L
CC
I/O k _ Rvꢄe Tvme (Nroe 4)
o
21
30
30
30
20
20
±0
nꢄ
nꢄ
nꢄ
nꢄ
CC
RkCC
I/O k _ Faꢂꢂ Tvme (Nroe 1)
o
FkCC
CC
I/O k _ Rvꢄe Tvme (Nroe 4)
o
RkL
L
I/O k _ Faꢂꢂ Tvme (Nroe 1)
L
o
FkL
I/O
I/O
Spvꢃvng I/O k _
L
kLDkCC
kCCDkL
ꢀKEW
Ppr-agaovrn Seꢂay
nꢄ
Spvꢃvng I/O k
_
CC
Eaꢁh opanꢄꢂaorp equaꢂꢂy ꢂraded
ChanneꢂDorDChanneꢂ ꢀ5ew
Maxvmum Saoa Raoe
o
nꢄ
±0
Mb-ꢄ
+2.5V ≤ V ≤ V
≤ +3.3V
L
CC
I/O k _ Rvꢄe Tvme (Nroe 4)
o
±1
±1
±1
±1
±1
±1
±0
nꢄ
nꢄ
nꢄ
nꢄ
CC
RkCC
I/O k _ Faꢂꢂ Tvme (Nroe 1)
o
FkCC
CC
I/O k _ Rvꢄe Tvme (Nroe 4)
o
RkL
L
I/O k _ Faꢂꢂ Tvme (Nroe 1)
L
o
FkL
I/O
I/O
Spvꢃvng I/O k _
L
kLDkCC
kCCDkL
ꢀKEW
Ppr-agaovrn Seꢂay
nꢄ
Spvꢃvng I/O k
_
CC
ChanneꢂDorDChanneꢂ ꢀ5ew
Maxvmum Saoa Raoe
o
Eaꢁh opanꢄꢂaorp equaꢂꢂy ꢂraded
nꢄ
±6
Mb-ꢄ
+1.8V ≤ V ≤ V
≤ +2.5V
L
CC
I/O k _ Rvꢄe Tvme (Nroe 4)
o
±1
±1
±1
±1
±1
±1
±0
nꢄ
nꢄ
nꢄ
nꢄ
CC
RkCC
I/O k _ Faꢂꢂ Tvme (Nroe 1)
o
FkCC
CC
I/O k _ Rvꢄe Tvme (Nroe 4)
o
RkL
L
I/O k _ Faꢂꢂ Tvme (Nroe 1)
L
o
FkL
I/O
I/O
Spvꢃvng I/O k _
L
kLDkCC
kCCDkL
ꢀKEW
Ppr-agaovrn Seꢂay
nꢄ
Spvꢃvng I/O k
_
CC
ChanneꢂDorDChanneꢂ ꢀ5ew
Maxvmum Saoa Raoe
o
Eaꢁh opanꢄꢂaorp equaꢂꢂy ꢂraded
nꢄ
±6
Mb-ꢄ
Note 1: Aꢂꢂ unvoꢄ ape ±00% -prduꢁovrn oeꢄoed ao T = +21°C. Lvmvoꢄ rꢃep ohe r-epaovng oem-epaoupe pange ape guapanoeed by deꢄvgn
A
and nro -prduꢁovrn oeꢄoed.
Note 2: Frp nrpmaꢂ r-epaovrn, enꢄupe k < (k
+ 0.3k). Supvng -rwepDu-, k > (k
+ 0.3k) wvꢂꢂ nro damage ohe deꢃvꢁe.
CC
L
CC
L
Note 3: Tr enꢄupe maxvmum EꢀS -proeꢁovrn, -ꢂaꢁe a ±µF ꢁa-aꢁvorp beoween k
and GNS. ꢀee A--ꢂvꢁaovrnꢄ Cvpꢁuvoꢄ.
CC
Note 4: ±0% or 90%
Note 5: 90% or ±0%
Maxvm Inoegpaoed
1
MAX3372ꢀ–MAX3379ꢀ/MAX3390ꢀ–MAX3393ꢀ
±±15k ꢀEDꢁ-rotected, ±µA, ±6Mbps, Dual/Quad
Lowꢁkoltage Level Translators in UCE-
Typical Operating Characteristics
(R
= ±MΩ, T = +21°C, unꢂeꢄꢄ rohepwvꢄe nroed. Aꢂꢂ 2305b-ꢄ TOCꢄ a--ꢂy or MAX3372E/MAX3377E rnꢂy. Aꢂꢂ 8Mb-ꢄ and
A
LOAS
1005b-ꢄ TOCꢄ a--ꢂy or MAX3373E–MAX3376E/MAX3378E/MAX3379E and MAX3390E–MAX3393E rnꢂy.)
V
SUPPLY CURRENT vs. SUPPLY VOLTAGE
V SUPPLY CURRENT vs. SUPPLY VOLTAGE
L
V SUPPLY CURRENT vs. TEMPERATURE
L
CC
(DRIVING I/O V , V = +3.3V, V = +1.8V)
(DRIVING I/O V , V = +3.3V, V = +1.8V)
(DRIVING I/O V , V = +3.3V, V = +1.8V)
L
CC
L
L
CC
L
CC CC
L
3.5
3.0
2.5
2.0
1.5
1.0
0.5
0
600
500
400
300
200
100
0
400
350
300
250
200
150
100
50
500kbps, OPEN-DRAIN, C = 15pF
LOAD
8Mbps, C
= 15pF
LOAD
8Mbps, C
= 15pF
LOAD
500kbps, OPEN-DRAIN, C
= 15pF
8Mbps, C
= 15pF
LOAD
LOAD
500kbps, OPEN-DRAIN, C
= 15pF
LOAD
230kbps, C
= 50pF
LOAD
230kbps, C
= 50pF
LOAD
230kbps, C
= 50pF
60
LOAD
0
1.65 2.20 2.75 3.30 3.85 4.40 4.95 5.50
(V)
1.65 2.20 2.75 3.30 3.85 4.40 4.95 5.50
(V)
-40
-15
10
35
85
V
V
TEMPERATURE (°C)
CC
CC
V
SUPPLY CURRENT vs. TEMPERATURE
V SUPPLY CURRENT vs. CAPACITIVE LOAD
V
SUPPLY CURRENT vs. CAPACITIVE LOAD
CC
L
CC
(DRIVING I/O V , V = +3.3V, V = +1.8V)
(DRIVING I/O V , V = +3.3V, V = +1.8V)
(DRIVING I/O V , V = +3.3V, V = +1.8V)
CC CC
L
L
CC
L
L CC L
1600
1400
1200
1000
800
600
400
200
0
350
300
250
200
150
100
50
2500
8Mbps
2000
1500
1000
500
0
8Mbps, C
= 15pF
LOAD
8Mbps
500kbps, OPEN-DRAIN, C
230kbps, C
= 15pF
LOAD
500kbps, OPEN-DRAIN
500kbps, OPEN-DRAIN
230kbps
= 50pF
LOAD
230kbps
85
0
-40
-15
10
35
60
85
10
25
40
55
70
100
10
25
40
55
70
85
100
TEMPERATURE (°C)
CAPACITIVE LOAD (pF)
CAPACITIVE LOAD (pF)
RISE/FALL TIME vs. CAPACITIVE LOAD
RISE/FALL TIME vs. CAPACITIVE LOAD
(DRIVING I/O V , V = +3.3V, V = +1.8V)
RISE/FALL TIME vs. CAPACITIVE LOAD
(DRIVING I/O V , V = +3.3V, V = +1.8V)
(DRIVING I/O V , V = +3.3V, V = +1.8V)
L
CC
L
L
CC
L
L
CC
L
2500
2000
1500
1000
500
18
16
14
12
10
8
250
t
LH
200
150
100
50
t
t
LH
LH
DATA RATE = 500kbps,
OPEN-DRAIN
t
6
HL
DATA RATE = 230kbps
t
HL
4
DATA RATE = 8Mbps
2
t
HL
0
0
0
20 30 40 50 60 70 80 90 100
CAPACITIVE LOAD (pF)
10 15 20 25 30 35 40 45 50
CAPACITIVE LOAD (pF)
10 15 20 25 30 35 40 45 50
CAPACITIVE LOAD (pF)
6
Maxvm Inoegpaoed
MAX3372ꢀ–MAX3379ꢀ/MAX3390ꢀ–MAX3393ꢀ
±±15k ꢀEDꢁ-rotected, ±µA, ±6Mbps, Dual/Quad
Lowꢁkoltage Level Translators in UCE-
Typical Operating Characteristics (continued)
(R
= ±MΩ, T = +21°C, unꢂeꢄꢄ rohepwvꢄe nroed. Aꢂꢂ 2305b-ꢄ TOCꢄ a--ꢂy or MAX3372E/MAX3377E rnꢂy. Aꢂꢂ 8Mb-ꢄ and
A
LOAS
1005b-ꢄ TOCꢄ a--ꢂy or MAX3373E–MAX3376E/MAX3378E/MAX3379E and MAX3390E–MAX3393E rnꢂy.)
PROPAGATION DELAY vs. CAPACITIVE LOAD
(DRIVING I/O V , V = +3.3V, V = +1.8V)
PROPAGATION DELAY vs. CAPACITIVE LOAD
(DRIVING I/O V , V = +3.3V, V = +1.8V)
PROPAGATION DELAY vs. CAPACITIVE LOAD
(DRIVING I/O V , V = +3.3V, V = +1.8V)
L
CC
L
L
CC
L
L
CC
L
700
600
500
400
300
200
100
0
15
12
9
300
250
200
150
100
50
DATA RATE = 8Mbps
t
PLH
t
PHL
t
PHL
DATA RATE = 500kbps,
OPEN-DRAIN
t
PLH
6
DATA RATE = 230kbps
3
t
PHL
t
PLH
0
0
20 30 40 50 60 70 80 90 100
CAPACITIVE LOAD (pF)
10 15 20 25 30 35 40 45 50
CAPACITIVE LOAD (pF)
10 15 20 25 30 35 40 45 50
CAPACITIVE LOAD (pF)
RISE/FALL TIME vs. CAPACITIVE LOAD
RISE/FALL TIME vs. CAPACITIVE LOAD
RISE/FALL TIME vs. CAPACITIVE LOAD
(DRIVING I/O V , V = +2.5V, V = +1.8V)
(DRIVING I/O V , V = +2.5V, V = +1.8V)
(DRIVING I/O V , V = +2.5V, V = +1.8V)
L
CC
L
L
CC
L
CC CC L
2500
2000
1500
1000
500
14
300
250
200
150
100
50
DATA RATE = 8Mbps
t
LH
12
10
8
t
LH
t
LH
DATA RATE = 500kbps,
OPEN-DRAIN
6
t
HL
DATA RATE = 230kbps
4
t
HL
2
t
HL
0
0
0
20 30 40 50 60 70 80 90 100
CAPACITIVE LOAD (pF)
10 15 20 25 30 35 40 45 50
CAPACITIVE LOAD (pF)
10 15 20 25 30 35 40 45 50
CAPACITIVE LOAD (pF)
RISE/FALL TIME vs. CAPACITIVE LOAD
RISE/FALL TIME vs. CAPACITIVE LOAD
RISE/FALL TIME vs. CAPACITIVE LOAD
(DRIVING I/O V , V = +3.3V, V = +1.8V)
(DRIVING I/O V , V = +3.3V, V = +1.8V)
(DRIVING I/O V , V = +3.3V, V = +1.8V)
CC CC
L
CC CC
L
CC CC L
2500
2000
1500
1000
500
12
10
8
300
250
200
150
100
50
DATA RATE = 8Mbps
DATA RATE = 230kbps
t
LH
t
HL
t
LH
DATA RATE = 500kbps,
OPEN-DRAIN
6
4
t
HL
t
2
HL
t
LH
0
0
0
20 30 40 50 60 70 80 90 100
CAPACITIVE LOAD (pF)
10 15 20 25 30 35 40 45 50
CAPACITIVE LOAD (pF)
10 15 20 25 30 35 40 45 50
CAPACITIVE LOAD (pF)
Maxvm Inoegpaoed
7
MAX3372ꢀ–MAX3379ꢀ/MAX3390ꢀ–MAX3393ꢀ
±±15k ꢀEDꢁ-rotected, ±µA, ±6Mbps, Dual/Quad
Lowꢁkoltage Level Translators in UCE-
Typical Operating Characteristics (continued)
(R
= ±MΩ, T = +21°C, unꢂeꢄꢄ rohepwvꢄe nroed. Aꢂꢂ 2305b-ꢄ TOCꢄ a--ꢂy or MAX3372E/MAX3377E rnꢂy. Aꢂꢂ 8Mb-ꢄ and
A
LOAS
1005b-ꢄ TOCꢄ a--ꢂy or MAX3373E–MAX3376E/MAX3378E/MAX3379E and MAX3390E–MAX3393E rnꢂy.)
PROPAGATION DELAY vs. CAPACITIVE LOAD
(DRIVING I/O V , V = +3.3V, V = +1.8V)
PROPAGATION DELAY vs. CAPACITIVE LOAD
(DRIVING I/O V , V = +3.3V, V = +1.8V)
PROPAGATION DELAY vs. CAPACITIVE LOAD
(DRIVING I/O V , V = +3.3V, V = +1.8V)
CC CC
L
CC CC
L
CC CC
L
6
5
4
3
2
1
0
300
250
200
150
100
50
700
600
500
400
300
200
100
0
DATA RATE = 8Mbps
DATA RATE = 230kbps
t
PLH
t
PHL
t
PHL
DATA RATE = 500kbps,
OPEN-DRAIN
t
PLH
t
PHL
t
PHL
0
10 15 20 25 30 35 40 45 50
CAPACITIVE LOAD (pF)
10 15 20 25 30 35 40 45 50
CAPACITIVE LOAD (pF)
20 30 40 50 60 70 80 90 100
CAPACITIVE LOAD (pF)
RISE/FALL TIME vs. CAPACITIVE LOAD
RISE/FALL TIME vs. CAPACITIVE LOAD
RISE/FALL TIME vs. CAPACITIVE LOAD
(DRIVING I/O V , V = +2.5V, V = +1.8V)
(DRIVING I/O V , V = +2.5V, V = +1.8V)
(DRIVING I/O V , V = +2.5V, V = +1.8V)
CC CC
L
CC CC
L
CC CC L
2500
2000
1500
1000
500
12
10
8
350
300
250
200
150
100
50
DATA RATE = 8Mbps
DATA RATE = 230kbps
t
t
HL
LH
DATA RATE = 500kbps,
OPEN-DRAIN
6
t
LH
4
t
t
HL
HL
2
t
LH
0
0
0
20 30 40 50 60 70 80 90 100
CAPACITIVE LOAD (pF)
10
20
30
40
50
10
20
30
40
50
CAPACITIVE LOAD (pF)
CAPACITIVE LOAD (pF)
RAIL-TO-RAIL DRIVING
RAIL-TO-RAIL DRIVING
(DRIVING I/O V , V = +3.3V, V = +1.8V,
(DRIVING I/O V , V = +3.3V, V = +1.8V,
L
CC
L
L
CC
L
C
LOAD
= 50pF, DATA RATE = 230kbps)
C
LOAD
= 15pF, DATA RATE = 8Mbps)
I/O V
1V/div
2V/div
I/O V
1V/div
2V/div
L_
L_
I/O V
I/O V
CC_
CC_
200ns/div
1μs/div
8
Maxvm Inoegpaoed
MAX3372E–MAX3379E/MAX3390E–MAX3393E
±±15k EꢀSD-rotected, ±µA, ±6Mbps, Sual/Quad
LowDkoltage Level Translators in UCꢀ-
Typical Operating Characteristics (continued)
(R
= 1MΩ, T = +25°C, unless otherwise noted. All 230kbps TOCs apply to MAX3372E/MAX3377E only. All 8Mbps and
A
LOAD
500kbps TOCs apply to MAX3373E–MAX3376E/MAX3378E/MAX3379E and MAX3390E–MAX3393E only.)
OPEN-DRAIN DRIVING
EXITING THREE-STATE OUTPUT MODE
(V = +3.3V, V = +1.8V, C = 50pF)
(DRIVING I/O V , V = +3.3V, V = +1.8V,
L
CC
L
C
LOAD
= 15pF, DATA RATE = 500kbps)
CC
L
LOAD
MAX3372E toc28
2V/div
1V/div
I/O V
CC_
I/O V
1V/div
2V/div
L_
I/O V
L_
I/O V
CC_
1V/div
THREE-STATE
2μs/div
200ns/div
-in Sescription
PIN
NAME
I/O V 1
FUNCTION
3 x 4
UCSP TSSOP
14
3 x 3
UCSP
8 TDFN- 14 TDFN-
SOT23-8
EP
EP
A1
A2
A3
A4
B1
B2
2
3
5
4
C2
C3
—
6
1
Input/Output 1. Referenced to V . (Note 6)
L
L
8
2
I/O V 2
Input/Output 2. Referenced to V . (Note 6)
L
L
4
—
—
7
—
—
4
5
I/O V 3
Input/Output 3. Referenced to V . (Note 6)
L
L
5
—
6
I/O V 4
Input/Output 4. Referenced to V . (Note 6)
L
L
14
1
A1
C1
14
10
V
V
Input Voltage +1.65V ≤ V
≤ +5.5V.
CC
CC
CC
3
7
V
Logic Input Voltage +1.2V ≤ V ≤ (V
+ 0.3V)
L
L
CC
Three-State Output Mode Enable. Pull THREE - S T ATE low
to place device in three-state output mode. I/O V and
I/O V are high impedance in three-state output mode.
L_
CC_
THREE-
STATE
B3
8
6
B1
5
3
Note: Logic referenced to V (for logic thresholds see the
L
Electrical Characteristics table).
B4
C1
C2
C3
C4
—
7
13
12
11
10
6, 9
—
2
8
B3
A2
A3
—
2
3
7
13
12
9
GND
Ground
I/O V
I/O V
I/O V
I/O V
1
2
3
4
Input/Output 1. Referenced to V . (Note 6)
CC
CC
CC
CC
CC
1
1
Input/Output 2. Referenced to V . (Note 6)
CC
—
—
—
—
—
—
—
—
Input/Output 3. Referenced to V . (Note 6)
CC
—
8
Input/Output 4. Referenced to V . (Note 6)
CC
B2
—
4, 11
—
N.C.
EP
No Connection. Not internally connected.
Exposed Pad. Connect EP to ground.
—
Note 6: For unidirectional devices (MAX3374E/MAX3375E/MAX3376E/MAX3379E and MAX3390E–MAX3393E) see the Pin
Configurations for input/output configurations.
Maxim Integrated
9
MAX3372ꢀ–MAX3379ꢀ/MAX3390ꢀ–MAX3393ꢀ
±±15k ꢀEDꢁ-rotected, ±µA, ±6Mbps, Dual/Quad
Lowꢁkoltage Level Translators in UCE-
aꢁꢁe-o k fprm +±.2k or +1.1k and k
fprm +±.61k or
L
CC
Detailed Description
+1.1k, ma5vng ohem vdeaꢂ frp daoa opanꢄfep beoween ꢂrwD
The MAX3372E–MAX3379E and MAX3390E–MAX3393E
EꢀSD-proeꢁoed ꢂeꢃeꢂ opanꢄꢂaorpꢄ -prꢃvde ohe ꢂeꢃeꢂ ꢄhvfovng
neꢁeꢄꢄapy or aꢂꢂrw daoa opanꢄfep vn a muꢂovꢃrꢂoage ꢄyꢄoem.
ꢃrꢂoage AꢀICꢄ/PLSꢄ and hvghep ꢃrꢂoage ꢄyꢄoemꢄ.
Aꢂꢂ deꢃvꢁeꢄ vn ohe MAX3372E–MAX3379E, MAX3390E–
MAX3393E famvꢂy feaoupe a ohpeeDꢄoaoe ruo-uo mrde ohao
peduꢁeꢄ ꢄu--ꢂy ꢁuppeno or ꢂeꢄꢄ ohan ±µA, ohepmaꢂ ꢄhrpoD
Exoepnaꢂꢂy a--ꢂved ꢃrꢂoageꢄ, k and k , ꢄeo ohe ꢂrgvꢁ ꢂeꢃD
CC
L
eꢂꢄ rn evohep ꢄvde rf ohe deꢃvꢁe. A ꢂrwDꢃrꢂoage ꢂrgvꢁ ꢄvgnaꢂ
ꢁvpꢁuvo -proeꢁovrn, and ±±15k EꢀS -proeꢁovrn rn ohe k
CC
-peꢄeno rn ohe k ꢄvde rf ohe deꢃvꢁe a--eapꢄ aꢄ a hvghD
L
ꢄvde frp gpeaoep -proeꢁovrn vn a--ꢂvꢁaovrnꢄ ohao pruoe ꢄvgD
naꢂꢄ exoepnaꢂꢂy. The MAX3372E/MAX3377E r-epaoe ao a
guapanoeed daoa paoe rf 2305b-ꢄ. ꢀꢂewDpaoe ꢂvmvovng
peduꢁeꢄ EMI emvꢄꢄvrnꢄ vn aꢂꢂ 2305b-ꢄ deꢃvꢁeꢄ. The
MAX3373E–MAX3376E/MAX3378E/MAX3379E and
MAX3390E–MAX3393E r-epaoe ao a guapanoeed daoa paoe
rf 8Mb-ꢄ rꢃep ohe enovpe ꢄ-eꢁvfved r-epaovng ꢃrꢂoage
pange. Wvohvn ꢄ-eꢁvfvꢁ ꢃrꢂoage drmavnꢄ, hvghep daoa paoeꢄ
ape -rꢄꢄvbꢂe. (ꢀee ohe Tvmvng Chapaꢁoepvꢄovꢁꢄ oabꢂe.)
ꢃrꢂoage ꢂrgvꢁ ꢄvgnaꢂ rn ohe k
ꢄvde rf ohe deꢃvꢁe, and
CC
ꢃvꢁeDꢃepꢄa. The MAX3374E/MAX3371E/MAX3376E/
MAX3379E and MAX3390E–MAX3393E unvdvpeꢁovrnaꢂ
ꢂeꢃeꢂ opanꢄꢂaorpꢄ ꢂeꢃeꢂ ꢄhvfo daoa vn rne dvpeꢁovrn (k
→
L
k
rp k
→ k ) rn any ꢄvngꢂe daoa ꢂvne. The
CC
CC L
MAX3372E/MAX3373E and MAX3377E/MAX3378E bvdvD
peꢁovrnaꢂ ꢂeꢃeꢂ opanꢄꢂaorpꢄ uovꢂvze a opanꢄmvꢄꢄvrnDgaoeD
baꢄed deꢄvgn (ꢄee Fvgupe 2) or aꢂꢂrw daoa opanꢄꢂaovrn vn
evohep dvpeꢁovrn (k ↔ k ) rn any ꢄvngꢂe daoa ꢂvne. The
L
CC
MAX3372E–MAX3379E and MAX3390E–MAX3393E
V
V
CC
V
L
V
L
CC
V
L
V
CC
V
V
CC
L
MAX3372E–MAX3379E
MAX3372E–MAX3379E
AND MAX3390E–MAX3393E
AND MAX3390E–MAX3393E
DATA
DATA
I/O V
_
I/O V
_
I/O V _
L
CC
I/O V _
L
CC
C
LOAD
R
LOAD
GND
GND
R
C
LOAD
LOAD
I/O V _
L
I/O V
_
CC
,
(t
RISE
FALL
,
(t
RISE
FALL
t
< 10ns)
t
< 10ns)
t
t
PD-VCC-LH
PD-VCC-HL
t
t
PD-VL-LH
PD-VL-HL
I/O V
_
CC
I/O V _
L
t
t
RVCC
FVCC
t
t
RVL
FVL
Fvgupe ±b. RavꢂDorDRavꢂ Spvꢃvng I/O k
Fvgupe ±a. RavꢂDorDRavꢂ Spvꢃvng I/O k
±0
CC
L
Maxvm Inoegpaoed
MAX3372ꢀ–MAX3379ꢀ/MAX3390ꢀ–MAX3393ꢀ
±±15k ꢀEDꢁ-rotected, ±µA, ±6Mbps, Dual/Quad
Lowꢁkoltage Level Translators in UCE-
I/O k and I/O k
or ohevp peꢄ-eꢁovꢃe ꢄu--ꢂveꢄ (ꢄee
Level Translation
Frp -pr-ep r-epaovrn enꢄupe ohao +±.61k ≤ k
L_
CC_
Fvgupe 2b). Thvꢄ gpeaoꢂy peduꢁeꢄ ohe pvꢄe ovme and -pr-aD
gaovrn deꢂay frp ohe ꢂrwDorDhvgh opanꢄvovrn. The ꢄꢁr-e
-hror rf RavꢂDorDRavꢂ Spvꢃvng frp 8Mb-ꢄ O-epaovrn vn ohe
Ty-vꢁaꢂ O-epaovng Chapaꢁoepvꢄovꢁꢄ ꢄhrwꢄ ohe ꢄ-eedDu-
ꢁvpꢁuvopy vn r-epaovrn.
≤
CC
+1.1k, +±.2k ≤ k ≤ +1.1k, and k ≤ (k + 0.3k).
L
L
CC
Supvng -rwepDu- ꢄequenꢁvng, k ≥ (k
+ 0.3k) wvꢂꢂ
CC
L
nro damage ohe deꢃvꢁe. Supvng -rwepDꢄu--ꢂy ꢄequenꢁD
vng, when k vꢄ fꢂraovng and k vꢄ -rwepvng u-, a ꢁupD
CC
L
peno may be ꢄrupꢁed, yeo ohe deꢃvꢁe wvꢂꢂ nro ꢂaoꢁh u-.
The ꢄ-eedDu- ꢁvpꢁuvopy ꢂvmvoꢄ ohe maxvmum daoa paoe frp
deꢃvꢁeꢄ vn ohe MAX3372E–MAX3379E, MAX3390E–
MAX3393E famvꢂy or ±6Mb-ꢄ. The maxvmum daoa paoe
aꢂꢄr de-endꢄ heaꢃvꢂy rn ohe ꢂrad ꢁa-aꢁvoanꢁe (ꢄee ohe
Ty-vꢁaꢂ O-epaovng Chapaꢁoepvꢄovꢁꢄ), ruo-uo vm-edanꢁe
rf ohe dpvꢃep, and ohe r-epaovrnaꢂ ꢃrꢂoage pange (ꢄee ohe
Tvmvng Chapaꢁoepvꢄovꢁꢄ oabꢂe).
RiseꢁTime Accelerators
The MAX3373E–MAX3376E/MAX3378E/MAX3379E and
ohe MAX3390E–MAX3393E haꢃe vnoepnaꢂ pvꢄeDovme
aꢁꢁeꢂepaorpꢄ aꢂꢂrwvng r-epaovrn u- or ±6Mb-ꢄ. The
pvꢄeDovme aꢁꢁeꢂepaorpꢄ ape -peꢄeno rn broh ꢄvdeꢄ rf ohe
deꢃvꢁe and aꢁo or ꢄ-eed u- ohe pvꢄe ovme rf ohe vn-uo
and ruo-uo rf ohe deꢃvꢁe, pegapdꢂeꢄꢄ rf ohe dvpeꢁovrn rf
ohe daoa. The opvggepvng meꢁhanvꢄm frp oheꢄe aꢁꢁeꢂepaD
orpꢄ vꢄ broh ꢂeꢃeꢂ and edge ꢄenꢄvovꢃe. Tr -peꢃeno faꢂꢄe
opvggepvng rf ohe pvꢄeDovme aꢁꢁeꢂepaorpꢄ, ꢄvgnaꢂ faꢂꢂ ovmeꢄ
rf ꢂeꢄꢄ ohan 20nꢄ/k ape peꢁrmmended frp broh ohe
vn-uoꢄ and ruo-uoꢄ rf ohe deꢃvꢁe. Undep ꢂeꢄꢄ nrvꢄy ꢁrnD
dvovrnꢄ, ꢂrngep ꢄvgnaꢂ faꢂꢂ ovmeꢄ may be aꢁꢁe-oabꢂe.
EpeedꢁUp Circuitry
The MAX3373E–MAX3376E/MAX3378E/MAX3379E and
MAX3390E–MAX3393E feaoupe a rneDꢄhro genepaorp ohao
deꢁpeaꢄeꢄ ohe pvꢄe ovme rf ohe ruo-uo. When opvggeped,
MOꢀFETꢄ PU± and PU2 oupn rn frp a ꢄhrpo ovme or -uꢂꢂ u-
V
L
V
CC
V
L
V
CC
V
V
CC
L
V
L
V
CC
MAX3373E–MAX3376E,
MAX3378E/MAX3379E
AND MAX3390E–MAX3393E
MAX3372E–MAX3379E
AND MAX3390E–MAX3393E
DATA
DATA
I/O V
I/O V
CC_
L_
I/O V
I/O V
CC_
L_
C
LOAD
C
LOAD
GND
R
LOAD
GND
R
LOAD
I/O V
CC_
I/O V
L_
t
t
PD-VCC-HL
PD-VL-HL
t
t
PD-VL-LH
PD-VCC-LH
I/O V
I/O V
L_
CC_
t
t
t
RVL
t
FVL
RVCC
FVCC
Fvgupe ±ꢁ. O-enDSpavn Spvꢃvng I/O k
Maxvm Inoegpaoed
Fvgupe ±d. O-enDSpavn Spvꢃvng I/O k
L
CC
±±
MAX3372ꢀ–MAX3379ꢀ/MAX3390ꢀ–MAX3393ꢀ
±±15k ꢀEDꢁ-rotected, ±µA, ±6Mbps, Dual/Quad
Lowꢁkoltage Level Translators in UCE-
ao I/O k or exꢁeed (k + 0.3k), rp ohe ꢃrꢂoage ao I/O
ThreeꢁEtate Output Mode
L_
L
k
or exꢁeed (k + 0.3k).
CC_
CC
Puꢂꢂ THREE-STATE ꢂrw or -ꢂaꢁe ohe MAX3372E–
MAX3379E and MAX3390E–MAX3393E vn ohpeeDꢄoaoe ruoD
Thermal EhortꢁCircuit -rotection
-uo mrde. Crnneꢁo THREE-STATE or k (ꢂrgvꢁDhvgh) frp
L
Thepmaꢂ rꢃepꢂrad deoeꢁovrn -proeꢁoꢄ ohe MAX3372E–
MAX3379E and MAX3390E–MAX3393E fprm ꢄhrpoDꢁvpꢁuvo
fauꢂo ꢁrndvovrnꢄ. In ohe eꢃeno rf a ꢄhrpoDꢁvpꢁuvo fauꢂo, when
nrpmaꢂ r-epaovrn. Aꢁovꢃaovng ohe ohpeeDꢄoaoe ruo-uo mrde
dvꢄꢁrnneꢁoꢄ ohe vnoepnaꢂ ±05Ω -uꢂꢂu- peꢄvꢄorpꢄ rn ohe I/O
k
CC
and I/O k ꢂvneꢄ. Thvꢄ frpꢁeꢄ ohe I/O ꢂvneꢄ or a hvghD
L
ohe junꢁovrn oem-epaoupe (T ) peaꢁheꢄ +±12°C, a ohepmaꢂ
J
vm-edanꢁe ꢄoaoe, and deꢁpeaꢄeꢄ ohe ꢄu--ꢂy ꢁuppeno or
ꢂeꢄꢄ ohan ±µA. The hvghDvm-edanꢁe I/O ꢂvneꢄ vn ohpeeD
ꢄoaoe ruo-uo mrde aꢂꢂrw frp uꢄe vn a muꢂovdpr- neowrp5.
When vn ohpeeDꢄoaoe ruo-uo mrde, dr nro aꢂꢂrw ohe ꢃrꢂoage
ꢄenꢄrp ꢄvgnaꢂꢄ ohe ohpeeDꢄoaoe ruo-uo mrde ꢂrgvꢁ or frpꢁe
ohe deꢃvꢁe vnor ohpeeDꢄoaoe ruo-uo mrde. When T haꢄ
J
ꢁrrꢂed or +±42°C, nrpmaꢂ r-epaovrn peꢄumeꢄ.
V
CC
V
L
P
P
GATE
BIAS
I/O V
I/O V
CC
L
N
Fvgupe 2a. Funꢁovrnaꢂ Svagpam, MAX3372E/MAX3377E (± I/O ꢂvne)
V
CC
V
L
ONE-SHOT
BLOCK
ONE-SHOT
BLOCK
PU1
PU2
GATE
BIAS
I/O V
L_
I/O V
CC_
N
Fvgupe 2b. Funꢁovrnaꢂ Svagpam, MAX3373E/MAX3378E (± I/O ꢂvne)
±2
Maxvm Inoegpaoed
MAX3372ꢀ–MAX3379ꢀ/MAX3390ꢀ–MAX3393ꢀ
±±15k ꢀEDꢁ-rotected, ±µA, ±6Mbps, Dual/Quad
Lowꢁkoltage Level Translators in UCE-
ꢂEC 1000-4-2
The IEC ±000D4D2 ꢄoandapd ꢁrꢃepꢄ EꢀS oeꢄovng and
-epfrpmanꢁe rf fvnvꢄhed equv-meno; vo dreꢄ nro ꢄ-eꢁvfvD
ꢁaꢂꢂy pefep or vnoegpaoed ꢁvpꢁuvoꢄ. The MAX3372E–
MAX3379E and MAX3390E–MAX3393E heꢂ- or deꢄvgn
equv-meno ohao meeoꢄ Leꢃeꢂ 3 rf IEC ±000D4D2, wvohruo
ohe need frp addvovrnaꢂ EꢀSD-proeꢁovrn ꢁrm-rnenoꢄ.
±±15k ꢀED -rotection
Aꢄ wvoh aꢂꢂ Maxvm deꢃvꢁeꢄ, EꢀSD-proeꢁovrn ꢄopuꢁoupeꢄ ape
vnꢁrp-rpaoed rn aꢂꢂ -vnꢄ or -proeꢁo agavnꢄo eꢂeꢁoprꢄoaovꢁ
dvꢄꢁhapgeꢄ enꢁrunoeped dupvng handꢂvng and aꢄꢄembꢂy.
The I/O k
ꢂvneꢄ haꢃe exopa -proeꢁovrn agavnꢄo ꢄoaovꢁ
CC
eꢂeꢁopvꢁvoy. Maxvm’ꢄ engvneepꢄ haꢃe deꢃeꢂr-ed ꢄoaoeDrfD
oheDapo ꢄopuꢁoupeꢄ or -proeꢁo oheꢄe -vnꢄ agavnꢄo EꢀS rf
±±15k wvohruo damage. The EꢀS ꢄopuꢁoupeꢄ wvohꢄoand
hvgh EꢀS vn aꢂꢂ ꢄoaoeꢄ: nrpmaꢂ r-epaovrn, ohpeeDꢄoaoe
ruo-uo mrde, and -rweped drwn. Afoep an EꢀS eꢃeno,
Maxvm’ꢄ E ꢃepꢄvrnꢄ 5ee- wrp5vng wvohruo ꢂaoꢁhu-,
whepeaꢄ ꢁrm-eovng -prduꢁoꢄ ꢁan ꢂaoꢁh and muꢄo be
-rweped drwn or pemrꢃe ꢂaoꢁhu-.
The majrp dvffepenꢁe beoween oeꢄoꢄ drne uꢄvng ohe
Human Brdy Mrdeꢂ and IEC ±000D4D2 vꢄ hvghep -ea5
ꢁuppeno vn IEC ±000D4D2, beꢁauꢄe ꢄepveꢄ peꢄvꢄoanꢁe vꢄ
ꢂrwep vn ohe IEC ±000D4D2 mrdeꢂ. Henꢁe, ohe EꢀS wvohD
ꢄoand ꢃrꢂoage meaꢄuped or IEC ±000D4D2 vꢄ genepaꢂꢂy
ꢂrwep ohan ohao meaꢄuped uꢄvng ohe Human Brdy Mrdeꢂ.
Fvgupe 4a ꢄhrwꢄ ohe IEC ±000D4D2 mrdeꢂ, and Fvgupe 4b
ꢄhrwꢄ ohe ꢁuppeno waꢃefrpm frp ohe ±85k, IEC ±000D4D2,
Leꢃeꢂ 4, EꢀS ꢁrnoaꢁoDdvꢄꢁhapge oeꢄo.
EꢀS -proeꢁovrn ꢁan be oeꢄoed vn ꢃapvruꢄ wayꢄ. The I/O
k
ꢂvneꢄ rf ohvꢄ -prduꢁo famvꢂy ape ꢁhapaꢁoepvzed frp
CC
-proeꢁovrn or ohe frꢂꢂrwvng ꢂvmvoꢄ:
The avpDga- oeꢄo vnꢃrꢂꢃeꢄ a--praꢁhvng ohe deꢃvꢁe wvoh a
ꢁhapged -prbe. The ꢁrnoaꢁoDdvꢄꢁhapge meohrd ꢁrnD
neꢁoꢄ ohe -prbe or ohe deꢃvꢁe befrpe ohe -prbe
vꢄ enepgvzed.
±) ±±15k uꢄvng ohe Human Brdy Mrdeꢂ
2) ±85k uꢄvng ohe Crnoaꢁo Svꢄꢁhapge meohrd ꢄ-eꢁvfved
vn IEC ±000D4D2
3) ±±05k uꢄvng IEC ±000D4D2’ꢄ AvpDGa- Svꢄꢁhapge
meohrd
Machine Model
The Maꢁhvne Mrdeꢂ frp EꢀS oeꢄoꢄ aꢂꢂ -vnꢄ uꢄvng a
200-F ꢄorpage ꢁa-aꢁvorp and zepr dvꢄꢁhapge peꢄvꢄD
oanꢁe. Ioꢄ rbjeꢁovꢃe vꢄ or emuꢂaoe ohe ꢄopeꢄꢄ ꢁauꢄed by
ꢁrnoaꢁo ohao rꢁꢁupꢄ wvoh handꢂvng and aꢄꢄembꢂy dupvng
manufaꢁoupvng. Of ꢁrupꢄe, aꢂꢂ -vnꢄ pequvpe ohvꢄ -proeꢁD
ovrn dupvng manufaꢁoupvng, nro juꢄo vn-uoꢄ and ruo-uoꢄ.
Thepefrpe, afoep PCB aꢄꢄembꢂy, ohe Maꢁhvne Mrdeꢂ vꢄ
ꢂeꢄꢄ peꢂeꢃano or I/O -rpoꢄ.
EꢀD Test Conditions
EꢀS -epfrpmanꢁe de-endꢄ rn a ꢃapveoy rf ꢁrndvovrnꢄ.
Crnoaꢁo Maxvm frp a peꢂvabvꢂvoy pe-rpo ohao drꢁumenoꢄ
oeꢄo ꢄeou-, oeꢄo meohrdrꢂrgy, and oeꢄo peꢄuꢂoꢄ.
Human Body Model
Fvgupe 3a ꢄhrwꢄ ohe Human Brdy Mrdeꢂ and Fvgupe 3b
ꢄhrwꢄ ohe ꢁuppeno waꢃefrpm vo genepaoeꢄ when dvꢄD
ꢁhapged vnor a ꢂrw vm-edanꢁe. Thvꢄ mrdeꢂ ꢁrnꢄvꢄoꢄ rf
a ±00-F ꢁa-aꢁvorp ꢁhapged or ohe EꢀS ꢃrꢂoage rf vnoepD
eꢄo, whvꢁh vꢄ ohen dvꢄꢁhapged vnor ohe oeꢄo deꢃvꢁe
ohprugh a ±.15Ω peꢄvꢄorp.
R
1MΩ
R 1500Ω
D
C
I 100%
P
90%
PEAK-TO-PEAK RINGING
(NOT DRAWN TO SCALE)
I
r
DISCHARGE
RESISTANCE
CHARGE-CURRENT-
LIMIT RESISTOR
AMPERES
HIGH-
VOLTAGE
DC
DEVICE-
UNDER-
TEST
C
s
100pF
STORAGE
CAPACITOR
36.8%
SOURCE
10%
0
TIME
0
t
RL
t
DL
CURRENT WAVEFORM
Fvgupe 3a. Human Brdy EꢀS Teꢄo Mrdeꢂ
Maxvm Inoegpaoed
Fvgupe 3b. Human Brdy Cuppeno Waꢃefrpm
±3
MAX3372ꢀ–MAX3379ꢀ/MAX3390ꢀ–MAX3393ꢀ
±±15k ꢀEDꢁ-rotected, ±µA, ±6Mbps, Dual/Quad
Lowꢁkoltage Level Translators in UCE-
I
100%
90%
R
50MΩ to 100MΩ
R 330Ω
D
C
DISCHARGE
RESISTANCE
CHARGE-CURRENT-
LIMIT RESISTOR
HIGH-
VOLTAGE
DC
DEVICE-
UNDER-
TEST
C
s
150pF
STORAGE
CAPACITOR
SOURCE
10%
t
t = 0.7ns to 1ns
r
30ns
60ns
Fvgupe 4a. IEC ±000D4D2 EꢀS Teꢄo Mrdeꢂ
Fvgupe 4b. IEC ±000D4D2 EꢀS Genepaorp Cuppeno Waꢃefrpm
AꢀIC and an I2C deꢃvꢁe. A oy-vꢁaꢂ a--ꢂvꢁaovrn vnꢃrꢂꢃeꢄ
vnoepfaꢁvng a ꢂrwDꢃrꢂoage mvꢁpr-prꢁeꢄꢄrp or a 3k rp 1k
S/A ꢁrnꢃepoep, ꢄuꢁh aꢄ ohe MAX1±7.
Applications Information
-owerꢁEupply Decoupling
Tr peduꢁe pv--ꢂe and ohe ꢁhanꢁe rf opanꢄmvoovng vnꢁrpD
peꢁo daoa, by-aꢄꢄ k and k
or gprund wvoh a 0.±µF
CC
-ushꢁ-ull vs. OpenꢁDrain Driving
Aꢂꢂ deꢃvꢁeꢄ vn ohe MAX3372E–MAX3379E and
MAX3390E–MAX3393E famvꢂy may be dpvꢃen vn a -uꢄhD
-uꢂꢂ ꢁrnfvgupaovrn. The MAX3373E–MAX3376E/
MAX3378E/MAX3379E and MAX3390E–MAX3393E
L
ꢁa-aꢁvorp. ꢀee ohe Ty-vꢁaꢂ O-epaovng Cvpꢁuvo. Tr enꢄupe
fuꢂꢂ ±±15k EꢀS -proeꢁovrn, by-aꢄꢄ k or gprund wvoh a
CC
±µF ꢁa-aꢁvorp. Pꢂaꢁe aꢂꢂ ꢁa-aꢁvorpꢄ aꢄ ꢁꢂrꢄe or ohe
-rwepDꢄu--ꢂy vn-uoꢄ aꢄ -rꢄꢄvbꢂe.
vnꢁꢂude vnoepnaꢂ ±05Ω peꢄvꢄorpꢄ ohao -uꢂꢂ u- I/O k and
L_
2
I C Level Translation
I/O k
or ohevp peꢄ-eꢁovꢃe -rwep ꢄu--ꢂveꢄ, aꢂꢂrwvng
CC_
The MAX3373E–MAX3376E, MAX3378E/MAX3379E
and MAX3390E–MAX3393E ꢂeꢃeꢂDꢄhvfo ohe daoa -peꢄeno
rn ohe I/O ꢂvneꢄ beoween +±.2k and +1.1k, ma5vng
ohem vdeaꢂ frp ꢂeꢃeꢂ opanꢄꢂaovrn beoween a ꢂrwDꢃrꢂoage
r-epaovrn rf ohe I/O ꢂvneꢄ wvoh r-enDdpavn deꢃvꢁeꢄ. ꢀee
ohe Tvmvng Chapaꢁoepvꢄovꢁꢄ oabꢂe frp maxvmum daoa paoeꢄ
when uꢄvng r-enDdpavn dpvꢃepꢄ.
Typical Operating Circuit
+1.8V
+3.3V
1µF
0.1µF
0.1µF
V
L
V
CC
THREE-STATE
+1.8V
SYSTEM
CONTROLLER
+3.3V
SYSTEM
MAX3378E–MAX3383E
DATA
DATA
I/O V
I/O V
CC_
L_
±4
Maxvm Inoegpaoed
MAX3372ꢀ–MAX3379ꢀ/MAX3390ꢀ–MAX3393ꢀ
±±15k ꢀEDꢁ-rotected, ±µA, ±6Mbps, Dual/Quad
Lowꢁkoltage Level Translators in UCE-
Applications Circuits
+1.8V
+3.3V
0.1µF
0.1µF
1µF
V
V
CC
L
THREE-STATE
+1.8V
SYSTEM
+3.3V
SYSTEM
CONTROLLER
MAX3372E/MAX3373E
I/O V
I/O V
I/O V
I/O V
CC1
CC2
L1
L2
DATA
DATA
+1.8V
+3.3V
0.1µF
0.1µF
1µF
V
V
CC
L
THREE-STATE
+1.8V
+3.3V
SYSTEM
SYSTEM
CONTROLLER
MAX3374E
O V
I V
I V
CC1
L1
DATA
O V
DATA
CC2
L2
Maxvm Inoegpaoed
±1
MAX3372ꢀ–MAX3379ꢀ/MAX3390ꢀ–MAX3393ꢀ
±±15k ꢀEDꢁ-rotected, ±µA, ±6Mbps, Dual/Quad
Lowꢁkoltage Level Translators in UCE-
Applications Circuits (continued)
+1.8V
+3.3V
0.1µF
0.1µF
1µF
V
V
CC
L
THREE-STATE
+1.8V
SYSTEM
+3.3V
SYSTEM
CONTROLLER
MAX3375E
O V
I V
L1
CC1
CC2
DATA
DATA
I V
O V
L2
+1.8V
+3.3V
0.1µF
0.1µF
1µF
V
V
CC
L
THREE-STATE
+1.8V
SYSTEM
+3.3V
SYSTEM
CONTROLLER
MAX3376E
I V
O V
O V
CC1
L1
DATA
DATA
I V
L2
CC2
±6
Maxvm Inoegpaoed
MAX3372ꢀ–MAX3379ꢀ/MAX3390ꢀ–MAX3393ꢀ
±±15k ꢀEDꢁ-rotected, ±µA, ±6Mbps, Dual/Quad
Lowꢁkoltage Level Translators in UCE-
Applications Circuits (continued)
+1.8V
+3.3V
0.1µF
0.1µF
1µF
V
V
CC
L
THREE-STATE
+1.8V
SYSTEM
+3.3V
SYSTEM
CONTROLLER
MAX3377E/MAX3378E
I/O V
I/O V
CC1
L1
I/O V
I/O V
I/O V
I/O V
I/O V
I/O V
L2
L3
L4
CC2
CC3
CC4
DATA
DATA
+1.8V
+3.3V
0.1µF
0.1µF
1µF
V
V
CC
L
THREE-STATE
+1.8V
SYSTEM
+3.3V
SYSTEM
CONTROLLER
MAX3379E
O V
I V
L1
I V
L2
I V
L3
I V
L4
CC1
O V
O V
O V
CC2
CC3
CC4
DATA
DATA
Maxvm Inoegpaoed
±7
MAX3372ꢀ–MAX3379ꢀ/MAX3390ꢀ–MAX3393ꢀ
±±15k ꢀEDꢁ-rotected, ±µA, ±6Mbps, Dual/Quad
Lowꢁkoltage Level Translators in UCE-
Applications Circuits (continued)
+1.8V
+3.3V
0.1µF
0.1µF
1µF
V
V
CC
L
THREE-STATE
+1.8V
SYSTEM
+3.3V
SYSTEM
CONTROLLER
MAX3390E
I V
O V
I V
L1
L1
O V
O V
O V
CC2
CC3
CC4
L2
DATA
DATA
I V
I V
L3
L4
+1.8V
+3.3V
0.1µF
0.1µF
1µF
V
V
CC
L
THREE-STATE
+1.8V
SYSTEM
+3.3V
SYSTEM
CONTROLLER
MAX3391E
I V
O V
O V
CC1
CC2
CC3
CC4
L1
I V
O V
O V
L2
DATA
DATA
I V
L3
I V
L4
±8
Maxvm Inoegpaoed
MAX3372ꢀ–MAX3379ꢀ/MAX3390ꢀ–MAX3393ꢀ
±±15k ꢀEDꢁ-rotected, ±µA, ±6Mbps, Dual/Quad
Lowꢁkoltage Level Translators in UCE-
Applications Circuits (continued)
+1.8V
+3.3V
0.1µF
0.1µF
1µF
V
V
CC
L
THREE-STATE
+1.8V
SYSTEM
+3.3V
SYSTEM
CONTROLLER
MAX3392E
I V
O V
O V
CC1
CC2
L1
L2
L3
I V
I V
DATA
DATA
O V
I V
CC3
CC4
O V
L4
+1.8V
+3.3V
0.1µF
0.1µF
1µF
V
V
CC
L
THREE-STATE
+1.8V
SYSTEM
+3.3V
SYSTEM
CONTROLLER
MAX3393E
I V
CC1
I V
CC2
I V
CC3
I V
CC4
O V
O V
L1
L2
DATA
DATA
O V
L3
I V
L4
Maxvm Inoegpaoed
±9
MAX3372ꢀ–MAX3379ꢀ/MAX3390ꢀ–MAX3393ꢀ
±±15k ꢀEDꢁ-rotected, ±µA, ±6Mbps, Dual/Quad
Lowꢁkoltage Level Translators in UCE-
Ordering Information (continued)
ꢁꢂN-
ꢁACKAGE
ꢁꢂN-
ꢁACKAGE
ꢁART
TEMꢁ RANGE
ꢁART
TEMꢁ RANGE
±2 UCꢀP
(±.1mm x 2.0mm)
9 UCꢀP
(±.1mm x ±.1mm)
MAX3378EEBC+T
D40°C or +81°C
MAX3372EEBL+T
D40°C or +81°C
±4 TSFNDEP**
(3mm x 3mm)
8 TSFNDEP**
(3mm x 3mm)
MAX3378EETS+T
MAX3379EEUS+
MAX3379EEBC+T
D40°C or +81°C
D40°C or +81°C
D40°C or +81°C
MAX3372EETA+T
MAX3373EEKA+T
MAX3373EEBL+T
D40°C or +81°C
D40°C or +81°C
D40°C or +81°C
±4 TꢀꢀOP
8 ꢀOT23
±2 UCꢀP
(±.1mm x 2.0mm)
9 UCꢀP
(±.1mm x ±.1mm)
±4 TSFNDEP**
(3mm x 3mm)
8 TSFNDEP**
(3mm x 3mm)
MAX3379EETS+T
MAX3390EEUS+
MAX3390EEBC+T
D40°C or +81°C
D40°C or +81°C
D40°C or +81°C
MAX3373EETA+T
MAX3374EEKA+T
MAX3374EEBL+T
D40°C or +81°C
D40°C or +81°C
D40°C or +81°C
±4 TꢀꢀOP
8 ꢀOT23
±2 UCꢀP
(±.1mm x 2.0mm)
9 UCꢀP
(±.1mm x ±.1mm)
±4 TSFNDEP**
(3mm x 3mm)
8 TSFNDEP**
(3mm x 3mm)
MAX3390EETS+T
MAX3391EEUS+
MAX339±EEBC+T
D40°C or +81°C
D40°C or +81°C
D40°C or +81°C
MAX3374EETA+T
MAX3375EEKA+T
MAX3371EEBL+T
D40°C or +81°C
D40°C or +81°C
D40°C or +81°C
±4 TꢀꢀOP
8 ꢀOT23
±2 UCꢀP
(±.1mm x 2.0mm)
9 UCꢀP
(±.1mm x ±.1mm)
±4 TSFNDEP**
(3mm x 3mm)
8 TSFNDEP**
(3mm x 3mm)
MAX339±EETS+T
MAX3392EEUS+
MAX3392EEBC+T
D40°C or +81°C
D40°C or +81°C
D40°C or +81°C
MAX3371EETA+T
MAX3376EEKA+T
MAX3376EEBL+T
D40°C or +81°C
D40°C or +81°C
D40°C or +81°C
±4 TꢀꢀOP
8 ꢀOT23
±2 UCꢀP
(±.1mm x 2.0mm)
9 UCꢀP
(±.1mm x ±.1mm)
±4 TSFNDEP**
(3mm x 3mm)
8 TSFNDEP**
(3mm x 3mm)
MAX3392EETS+T
MAX3393EEUS+
MAX3393EEBC+T
D40°C or +81°C
D40°C or +81°C
D40°C or +81°C
MAX3376EETA+T
MAX3377EEUS+
MAX3377EEBC+T
D40°C or +81°C
D40°C or +81°C
D40°C or +81°C
±4 TꢀꢀOP
±4 TꢀꢀOP
±2 UCꢀP
(±.1mm x 2.0mm)
9 UCꢀP
(±.1mm x ±.1mm)
±4 TSFNDEP**
(3mm x 3mm)
±4 TSFNDEP**
(3mm x 3mm)
MAX3393EETS+T
D40°C or +81°C
MAX3377EETS+T
D40°C or +81°C
D40°C or +81°C
MAX3378EEUS+
±4 TꢀꢀOP
+Senroeꢄ a ꢂeadDfpee -aꢁ5age.
**EP = Ex-rꢄed -ad.
T = Ta-e and peeꢂ.
20
Maxvm Inoegpaoed
MAX3372ꢀ–MAX3379ꢀ/MAX3390ꢀ–MAX3393ꢀ
±±15k ꢀEDꢁ-rotected, ±µA, ±6Mbps, Dual/Quad
Lowꢁkoltage Level Translators in UCE-
Eelector Guide
LEVEL
TRANꢀ-
LATꢂON
LEVEL
TRANꢀ-
LATꢂON
Tx/
Rx†
DATA
RATE
TOꢁ
MARK
Tx/
Rx†
DATA
RATE
TOꢁ
MARK
ꢁART
ꢁART
MAX3378EEUS+
MAX3378EEBC+T
MAX3378EETS+T
MAX3379EEUS+
MAX3379EEBC+T
MAX3379EETS+T
MAX3390EEUS+
MAX3390EEBC+T
MAX3390EETS+T
MAX339±EEUS+
MAX339±EEBC+T
MAX339±EETS+T
MAX3392EEUS+
MAX3392EEBC+T
MAX3392EETS+T
MAX3393EEUS+
MAX3393EEBC+T
MAX3393EETS+T
ꢀ Bv
ꢀ Bv
ꢀ Bv
Unv
Unv
Unv
Unv
Unv
Unv
Unv
Unv
Unv
Unv
Unv
Unv
Unv
Unv
Unv
4/4
4/4
4/4
4/0
4/0
4/0
3/±
3/±
3/±
2/2
2/2
2/2
±/3
±/3
±/3
0/4
0/4
0/4
—
AAY
AAH
—
MAX3372EEKA+T
MAX3372EEBL+T
MAX3372EETA+T
MAX3373EEKA+T
MAX3373EEBL+T
MAX3373EETA+T
MAX3374EEKA+T
MAX3374EEBL+T
MAX3374EETA+T
MAX3371EEKA+T
MAX3371EEBL+T
MAX3371EETA+T
MAX3376EEKA+T
MAX3376EEBL+T
MAX3376EETA+T
MAX3377EEUS+
MAX3377EEBC+T
MAX3377EETS+T
ꢀ Bv
ꢀ Bv
ꢀ Bv
ꢀ Bv
ꢀ Bv
ꢀ Bv
Unv
2/2
2/2
2/2
2/2
2/2
2/2
2/0
2/0
2/0
±/±
±/±
±/±
0/2
0/2
0/2
4/4
4/4
4/4
AAKO
AAR
AQG
AAKꢀ
AAZ
AQH
AALH
ABA
AQI
2305b-ꢄ
8Mb-ꢄ*
2305b-ꢄ
AAZ
AAI
—
ABA
AAJ
—
Unv
Unv
8Mb-ꢄ*
Unv
AALI
ABB
AQJ
AALG
AAk
AQK
—
ABB
AAK
—
Unv
Unv
Unv
ABC
AAL
—
Unv
Unv
ꢀ Bv
ꢀ Bv
ꢀ Bv
ABS
AAM
AAX
AAG
†Tx = k → k , Rx = kCC → k
L
CC
L
*Hvghep daoa paoeꢄ ape -rꢄꢄvbꢂe (ꢄee ohe Tvmvng Chapaꢁoepvꢄovꢁꢄ oabꢂe).
Maxvm Inoegpaoed
2±
MAX3372ꢀ–MAX3379ꢀ/MAX3390ꢀ–MAX3393ꢀ
±±15k ꢀEDꢁ-rotected, ±µA, ±6Mbps, Dual/Quad
Lowꢁkoltage Level Translators in UCE-
-in Configurations (continued)
A
B
C
V
+
+
I/O V
2
1
2
3
4
8
7
6
5
I/O V 1
CC
I/O V
2
1
2
3
4
8
7
6
5
I/O V 2
L
CC
CC
1
2
3
V
THREE-STATE
N.C.
CC
L
GND
V
CC
GND
V
L
MAX3372E
MAX3373E
V
L
I/O V 1
L
I/O V
1
THREE-STATE
CC
I/O V
I/O V
1
2
I/O V 1
L
CC
V
I/O V 2
L
I/O V 1
L
CC
THREE-STATE
*EP
GND
I/O V 2
L
CC
SOT23-8
TOP VIEW
TDFN-8 (3mm x 3mm)
TOP VIEW
9 UCSP (1.5mm x 1.5mm)
BOTTOM VIEW
*CONNECT EP TO GND
A
B
C
+
+
O V
2
1
2
3
4
8
7
6
5
I V 2
L
O V
2
1
2
3
4
8
7
6
5
O V
1
CC
CC
CC
1
V
V
THREE-STATE
N.C.
CC
L
GND
V
L
GND
V
CC
MAX3374E
2
3
I V 1
L
O V
1
V
L
CC
THREE-STATE
O V
O V
1
2
I V 1
L
CC
V
CC
THREE-STATE
I V 2
I V 1
L
L
*EP
GND
I V 2
L
CC
TDFN-8 (3mm x 3mm)
SOT23-8
TOP VIEW
TOP VIEW
9 UCSP (1.5mm x 1.5mm)
BOTTOM VIEW
*CONNECT EP TO GND
A
B
C
+
+
O V
2
1
2
3
4
8
7
6
5
I V 2
L
O V
2
1
2
3
4
8
7
6
5
I V 1
CC
CC
CC
1
V
V
THREE-STATE
N.C.
CC
L
GND
V
L
GND
V
CC
MAX3375E
2
3
O V 1
L
I V
1
V
L
CC
THREE-STATE
O V 1
O V
I V
1
I V 1
L
CC
V
CC
THREE-STATE
I V 2
L
L
*EP
GND
O V 2
L
2
CC
TDFN-8 (3mm x 3mm)
SOT23-8
TOP VIEW
TOP VIEW
9 UCSP (1.5mm x 1.5mm)
BOTTOM VIEW
*CONNECT EP TO GND
A
B
C
+
+
I V
2
1
2
3
4
8
7
6
5
O V 2
L
I V
2
1
2
3
4
8
7
6
5
I V
V
1
CC
CC
CC
1
2
3
V
V
THREE-STATE
N.C.
CC
CC
L
GND
V
L
GND
CC
MAX3376E
O V 1
L
I V
1
V
L
CC
THREE-STATE
O V 1
I V
1
2
O V 1
L
V
CC
THREE-STATE
O V 2
L
L
*EP
GND
O V 2
L
I V
CC
TDFN-8 (3mm x 3mm)
SOT23-8
TOP VIEW
TOP VIEW
9 UCSP (1.5mm x 1.5mm)
BOTTOM VIEW
*CONNECT EP TO GND
22
Maxvm Inoegpaoed
MAX3372ꢀ–MAX3379ꢀ/MAX3390ꢀ–MAX3393ꢀ
±±15k ꢀEDꢁ-rotected, ±µA, ±6Mbps, Dual/Quad
Lowꢁkoltage Level Translators in UCE-
-in Configurations (continued)
A
B
C
+
+
V
1
2
3
4
5
6
7
14
V
CC
I/O V 1
L
1
2
3
4
5
6
7
14
V
CC
L
1
2
3
4
I/O V 1
L
13 I/0 V
12 I/0 V
11 I/0 V
10 I/0 V
1
2
3
4
I/O V 1
L
V
I/O V
I/O V
1
2
I/O V 2
L
13 I/0 V
12 I/0 V
11 N.C.
1
2
CC
CC
CC
CC
CC
CC
CC
MAX3377E
MAX3378E
I/O V 2
L
THREE-STATE
N.C.
CC
I/O V 3
L
I/O V 2
L
V
L
CC
I/O V 4
L
I/O V 3
L
10
9
V
L
I/O V 3
L
THREE-STATE I/O V
3
4
N.C.
GND
9
8
N.C.
THREE-STATE
I/O V 4
L
I/0 V
I/0 V
3
CC
CC
4
GND
8
CC
*EP
I/O V 4
GND
I/O V
L
CC
TDFN-14 (3mm x 3mm)
TSSOP-14
TOP VIEW
TOP VIEW
12 UCSP (1.5mm x 2.0mm)
BOTTOM VIEW
*CONNECT EP TO GND
A
B
C
+
+
I V 1
L
1
2
3
4
5
6
7
14
V
CC
V
L
1
2
3
4
5
6
7
14
V
CC
1
2
3
4
I V 2
L
13 0 V
12 0 V
1
2
I V 1
L
13 O V
12 O V
11 O V
10 O V
1
CC
I V 1
L
V
CC
O V
O V
1
2
CC
CC
CC
MAX3379E
I V 2
L
2
3
4
THREE-STATE
N.C.
CC
CC
CC
11 N.C.
I V 3
L
I V 2
L
V
L
CC
I V 3
L
10
9
V
L
I V 4
L
I V 3
L
I V 4
L
0 V
0 V
3
THREE-STATE O V
3
4
N.C.
GND
9
8
N.C.
THREE-STATE
CC
CC
4
GND
8
CC
*EP
I V 4
L
GND
O V
CC
TSSOP-14
TOP VIEW
TDFN-14 (3mm x 3mm)
TOP VIEW
12 UCSP (1.5mm x 2.0mm)
BOTTOM VIEW
*CONNECT EP TO GND
A
B
C
+
+
V
L
1
2
3
4
5
6
7
14
V
CC
O V 1
L
1
2
3
4
5
6
7
14
V
CC
1
O V 1
L
13 I V 1
CC
O V 1
L
V
I V
CC
1
I V 2
L
13 I V
1
CC
CC
MAX3390E
I V 2
L
12 O V
11 O V
10 O V
2
12 0 V
2
CC
CC
CC
THREE-STATE
N.C.
CC
2
3
4
I V 3
L
3
4
I V 2
L
V
O V 2
CC
11 N.C.
L
I V 4
L
I V 3
L
10
9
V
L
I V 3
L
THREE-STATE O V
3
4
N.C.
GND
9
8
N.C.
THREE-STATE
I V 4
L
0 V
3
CC
CC
CC
0 V
CC
4
GND
8
*EP
I V 4
L
GND
O V
TSSOP-14
TOP VIEW
TDFN-14 (3mm x 3mm)
TOP VIEW
12 UCSP (1.5mm x 2.0mm)
BOTTOM VIEW
*CONNECT EP TO GND
Maxvm Inoegpaoed
23
MAX3372ꢀ–MAX3379ꢀ/MAX3390ꢀ–MAX3393ꢀ
±±15k ꢀEDꢁ-rotected, ±µA, ±6Mbps, Dual/Quad
Lowꢁkoltage Level Translators in UCE-
-in Configurations (continued)
A
B
C
+
+
O V 1
L
1
2
3
4
5
6
7
14
V
CC
V
1
2
3
4
5
6
7
14 V
CC
L
1
2
3
4
O V 2
L
13 I V
12 I V
1
2
O V 1
L
V
I V
1
2
O V 1
L
13 I V
12 I V
1
2
CC
CC
CC
CC
CC
CC
MAX3391E
O V 2
L
THREE-STATE
N.C.
11 N.C.
I V 3
L
11 O V
10 O V
3
O V 2
L
V
I V
CC
CC
L
CC
I V 3
L
10
9
V
L
I V 4
L
4
I V 3
L
THREE-STATE O V
3
I V 4
L
0 V
0 V
3
N.C.
GND
9
8
N.C.
CC
CC
4
CC
GND
8
THREE-STATE
*EP
I V 4
L
GND
O V
CC
4
TDFN-14 (3mm x 3mm)
TOP VIEW
TSSOP-14
TOP VIEW
12 UCSP (1.5mm x 2.0mm)
BOTTOM VIEW
*CONNECT EP TO GND
A
B
C
+
+
O V 1
L
1
2
3
4
5
6
7
14
V
CC
V
L
1
2
3
4
5
6
7
14
V
CC
1
2
3
4
O V 1
L
V
I V
I V
1
2
3
O V 2
L
13 I V
12 I V
1
O V 1
L
13 I V
12 I V
11 I V
1
2
3
CC
CC
CC
CC
CC
CC
CC
MAX3392E
2
O V 2
L
THREE-STATE
N.C.
O V 2
L
V
L
11 N.C.
O V 3
L
CC
O V 3
L
10
9
V
L
I V 4
L
10 O V 4
CC
O V 3
L
THREE-STATE I V
I V 4
L
I V
CC
3
CC
N.C.
GND
9
8
N.C.
THREE-STATE
0 V
4
GND
8
CC
*EP
I V 4
L
GND
O V 4
CC
TDFN-14 (3mm x 3mm)
TOP VIEW
TSSOP-14
TOP VIEW
12 UCSP (1.5mm x 2.0mm)
BOTTOM VIEW
*CONNECT EP TO GND
A
B
C
+
+
V
1
2
3
4
5
6
7
14
V
O V 1
L
1
2
3
4
5
6
7
14
V
CC
L
CC
1
2
3
4
O V 1
L
13 I V
12 I V
11 I V
10 I V
1
2
3
4
O V 2
L
13 I V
12 I V
1
2
O V 1
L
V
I V
1
2
CC
CC
CC
CC
CC
CC
CC
CC
MAX3393E
O V 2
L
THREE-STATE
N.C.
O V 3
L
11 N.C.
O V 2
L
V
I V
L
CC
O V 4
L
O V 3
L
10
9
V
L
O V 3
L
N.C.
GND
9
8
N.C.
THREE-STATE
O V 4
L
I V
I V
3
THREE-STATE I V
3
4
CC
CC
CC
4
GND
8
CC
O V 4
L
GND
I V
TDFN-14 (3mm x 3mm)
TOP VIEW
TSSOP-14
TOP VIEW
12 UCSP (1.5mm x 2.0mm)
BOTTOM VIEW
*CONNECT EP TO GND
24
Maxvm Inoegpaoed
MAX3372E–MAX3379E/MAX3390E–MAX3393E
±±15kVEꢀSD-Potected,V±µA,V±6Mbps,VSual/QuadV
LowDkoltageVLevelVTPanslatoPsVinVUCꢀ-
-ac5ageVInfoPmation
ChipVInfoPmation
For the latest package outline information and land patterns (foot-
prints), go to www.maximintegrated.com/packages. Note that a
“+”, “#”, or “-” in the package code indicates RoHS status only.
Package drawings may show a different suffix character, but the
drawing pertains to the package regardless of RoHS status.
PROCESS: BiCMOS
LAND
PATTERN NO.
PACKAGE
TYPE
PACKAGE
CODE
OUTLINE NO.
21-0078
90-0176
8 SOT23
K8SN+1
Refer to
Application
Note 1891
Refer to
Application
Note 1891
9 UCSP
B9+2
21-0093
21-0104
12 UCSP
B12+1
8 TDFN
14 TDFN
14 TSSOP
T833+2
T1433+2
U14+1
21-0137
21-0137
21-0066
90-0059
90-0063
90-0113
Maxim Integrated
25
MAX3372ꢀ–MAX3379ꢀ/MAX3390ꢀ–MAX3393ꢀ
±±15k ꢀEDꢁ-rotected, ±µA, ±6Mbps, Dual/Quad
Lowꢁkoltage Level Translators in UCE-
Revision History
REVꢂꢀꢂON REVꢂꢀꢂON
ꢁAGEꢀ
CHANGED
DEꢀCRꢂꢁTꢂON
NUMBER
DATE
0
±
2
3
±/02
±2/06
±±/07
±/±3
Invovaꢂ Reꢂeaꢄe
—
–
Addvovrn rf ±2Dbum- ECꢀP -aꢁ5agvng
Addvovrn rf ꢂeadDfpee r-ovrnꢄ
±, 20–3±
±, 2, 9, 20–23
U-daoed -aꢁ5agvng vnfrpmaovrn; u-daoed Absolute Maximum Ratings
Maxvm Inoegpaoed ꢁannro aꢄꢄume peꢄ-rnꢄvbvꢂvoy frp uꢄe rf any ꢁvpꢁuvopy rohep ohan ꢁvpꢁuvopy enovpeꢂy embrdved vn a Maxvm Inoegpaoed -prduꢁo. Nr ꢁvpꢁuvo -aoeno
ꢂvꢁenꢄeꢄ ape vm-ꢂved. Maxvm Inoegpaoed peꢄepꢃeꢄ ohe pvgho or ꢁhange ohe ꢁvpꢁuvopy and ꢄ-eꢁvfvꢁaovrnꢄ wvohruo nrovꢁe ao any ovme. The -apameopvꢁ ꢃaꢂueꢄ (mvn and
max ꢂvmvoꢄ) ꢄhrwn vn ohe Eꢂeꢁopvꢁaꢂ Chapaꢁoepvꢄovꢁꢄ oabꢂe ape guapanoeed. Oohep -apameopvꢁ ꢃaꢂueꢄ quroed vn ohvꢄ daoa ꢄheeo ape -prꢃvded frp guvdanꢁe.
26 ________________________________Maxim Integrated ±60 Rio Robles, Ean Jose, CA 91±34 UEA ±ꢁ408ꢁ60±ꢁ±000
© 20±3 Maxvm Inoegpaoed Pprduꢁoꢄ, Inꢁ.
Maxvm Inoegpaoed and ohe Maxvm Inoegpaoed ꢂrgr ape opademap5ꢄ rf Maxvm Inoegpaoed Pprduꢁoꢄ, Inꢁ.
相关型号:
MAX3393EEBC+T
【15kV ESD-Protected, 1レA, 16Mbps, Dual/Quad Low-Voltage Level Translators in UCSP
MAXIM
MAX3393EEBC-T
【15kV ESD-Protected, 1レA, 16Mbps, Dual/Quad Low-Voltage Level Translators in UCSP
MAXIM
MAX3393EETD+T
【15kV ESD-Protected, 1レA, 16Mbps, Dual/Quad Low-Voltage Level Translators in UCSP
MAXIM
MAX3394E
±15kV ESD-Protected, High-Drive Current, Dual-/Quad-/ Octal-Level Translators with Speed-Up Circuitry
MAXIM
©2020 ICPDF网 联系我们和版权申明