MAX13082EAPA [ROCHESTER]
LINE TRANSCEIVER, PDIP8, 0.300 INCH, PLASTIC, MS-001AB, DIP-8;
| 型号: | MAX13082EAPA |
| 厂家: | 
Rochester Electronics |
| 描述: | LINE TRANSCEIVER, PDIP8, 0.300 INCH, PLASTIC, MS-001AB, DIP-8 驱动 信息通信管理 光电二极管 接口集成电路 驱动器 |
| 文件: | 总33页 (文件大小:1171K) |
| 中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
19-3590; Rev 1; 4/05
+5.0V, 15ꢀV EꢁDꢂ-rotected, Failꢂꢁafe,
Hotꢂꢁwap, Rꢁꢂ485/Rꢁꢂ422 Transceivers
General Description
Features
The MAX13080E–MAX13089E +5.0V, 15ꢀV EꢁSD-proeꢂoD
ed, RꢁD485/RꢁD422 opansꢂeiveps feaoupe rne dpivep and
rne peꢂeivep. These deviꢂes inꢂlude failDsafe ꢂipꢂuiopy,
guapanoeeing a lrgiꢂDhigh peꢂeivep ruo-uo when peꢂeivep
in-uos ape r-en rp shrpoed. The peꢂeivep ruo-uos a lrgiꢂD
high if all opansmiooeps rn a oepminaoed bus ape disabled
(high im-edanꢂe). The MAX13080E–MAX13089E inꢂlude
a hroDswa- ꢂa-abilioy or eliminaoe false opansioirns rn ohe
bus duping -rwepDu- rp hro insepoirn.
♦ +5.0V Operation
♦ Extended ESD Protection for RS-485/RS-422 I/O Pins
±±5ꢀV ꢁHuan ꢂodꢃ ꢄodeꢅ
♦ TrHe Faiꢅ-Safe Receiver Whiꢅe ꢄaintaining
EIA/TIA-485 Coupatibiꢅitꢃ
♦ ꢁot-Swap InpHt StrHctHres on DE and RE
♦ Enhanced Sꢅew-Rate Liuiting Faciꢅitates Error-
Free Data Transuission
The MAX13080E/MAX13081E/MAX13082E feaoupe
peduꢂed slewDpaoe dpiveps ohao minimize EMI and
peduꢂe pefleꢂoirns ꢂaused by im-pr-eply oepminaoed
ꢂables, allrwing epprpDfpee daoa opansmissirn u- or
250ꢀb-s. The MAX13083E/MAX13084E/MAX13085E
alsr feaoupe slewDpaoeDlimioed dpiveps buo allrw opansmio
s-eeds u- or 500ꢀb-s. The MAX13086E/MAX13087E/
MAX13088E dpivep slew paoes ape nro limioed, maꢀing
opansmio s-eeds u- or 16Mb-s -rssible. The
MAX13089E slew paoe is -in seleꢂoable frp 250ꢀb-s,
500ꢀb-s, and 16Mb-s.
(ꢄAX±3080E–ꢄAX±3085E/ꢄAX±3089E)
♦ Low-CHrrent ShHtdown ꢄode (Except
ꢄAX±308±E/ꢄAX±3084E/ꢄAX±3087E)
♦ Pin-Seꢅectabꢅe FHꢅꢅ-/ꢁaꢅf-DHpꢅex Operation
(ꢄAX±3089E)
♦ Phase Controꢅs to Correct for Twisted-Pair
Reversaꢅ (ꢄAX±3089E)
♦ Aꢅꢅow Up to 256 Transceivers on the ꢂHs
The MAX13082E/MAX13085E/MAX13088E ape inoended
frp halfDdu-lex ꢂrmmuniꢂaoirns, and ohe MAX13080E/
MAX13081E/MAX13083E/MAX13084E/MAX13086E/
MAX13087E ape inoended frp fullDdu-lex ꢂrmmuniꢂaD
oirns. The MAX13089E is seleꢂoable frp halfDdu-lex rp
fullDdu-lex r-epaoirn. Io alsr feaoupes inde-endenoly
-prgpammable peꢂeivep and opansmiooep ruo-uo -hase
ohprugh se-apaoe -ins.
♦ Avaiꢅabꢅe in IndHstrꢃ-Standard 8-Pin SO Pacꢀage
Ordering Information
The MAX13080E–MAX13089E opansꢂeiveps dpaw 1.2mA
rf su--ly ꢂuppeno when unlraded rp when fully lraded
wioh ohe dpiveps disabled. All deviꢂes have a 1/8Dunio
lrad peꢂeivep in-uo im-edanꢂe, allrwing u- or 256
opansꢂeiveps rn ohe bus.
PIN-
PACKAGE
PKG
CODE
PART
TEꢄP RANGE
14 PSIP
14 ꢁO
P14D3
ꢁ14D2
P14D3
ꢁ14D2
P14D3
ꢁ14D2
ꢄAX±3080ECPS
MAX13080ECꢁS
MAX13080EEPS
MAX13080EEꢁS
MAX13080EAPS
MAX13080EAꢁS
0°C or +70°C
0°C or +70°C
The MAX13080E/MAX13083E/MAX13086E/MAX13089E
ape available in 14D-in PSIP and 14D-in ꢁO -aꢂꢀages.
The MAX13081E/MAX13082E/MAX13084E/MAX13085E/
MAX13087E/MAX13088E ape available in 8D-in PSIP and
8D-in ꢁO -aꢂꢀages. The deviꢂes r-epaoe rvep ohe ꢂrmD
mepꢂial, exoended, and auormroive oem-epaoupe panges.
14 PSIP
14 ꢁO
D40°C or +85°C
D40°C or +85°C
D40°C or +125°C
D40°C or +125°C
14 PSIP
14 ꢁO
Applications
Ordering Information continued at end of data sheet.
Uoilioy Meoeps
Lighoing ꢁysoems
Indusopial Crnoprl
Teleꢂrm
Selector Guide, Pin Configurations, and Typical Operating
Circuits appear at end of data sheet.
ꢁeꢂupioy ꢁysoems
Insopumenoaoirn
Pprfibus
________________________________________________________________ Maxim Integrated Products
±
For pricing, delivery, and ordering information, please contact Maxim/Dallas Direct! at
1-888-629-4642, or visit Maxim’s website at www.maxim-ic.com.
+5.0V, 15ꢀV EꢁDꢂ-rotected, Failꢂꢁafe,
Hotꢂꢁwap, Rꢁꢂ485/Rꢁꢂ422 Transceivers
AꢂSOLUTE ꢄAXIꢄUꢄ RATINGS
(All Vrloages Refepenꢂed or GNS)
Crnoinurus Prwep Sissi-aoirn (T = +70°C)
A
ꢁu--ly Vrloage (V ).............................................................+6V
Crnoprl In-uo Vrloage (RE, SE, ꢁLR,
H/F, TXP, RXP)......................................................D0.3V or +6V
Spivep In-uo Vrloage (SI)...........................................D0.3V or +6V
Spivep Ouo-uo Vrloage (Z, Y, A, B) .............................D8V or +13V
Reꢂeivep In-uo Vrloage (A, B)....................................D8V or +13V
Reꢂeivep In-uo Vrloage
8DPin ꢁO (depaoe 5.88mW/°C abrve +70°C) .................471mW
8DPin Plasoiꢂ SIP (depaoe 9.09mW/°C abrve +70°C) .....727mW
14DPin ꢁO (depaoe 8.33mW/°C abrve +70°C) ...............667mW
14DPin Plasoiꢂ SIP (depaoe 10.0mW/°C abrve +70°C) ...800mW
O-epaoing Tem-epaoupe Ranges
MAX1308_EC_ _ .................................................0°C or +75°C
MAX1308_EE_ _ ..............................................D40°C or +85°C
MAX1308_EA_ _ ............................................D40°C or +125°C
Junꢂoirn Tem-epaoupe......................................................+150°C
ꢁorpage Tem-epaoupe Range.............................D65°C or +150°C
Lead Tem-epaoupe (srldeping, 10s) .................................+300°C
CC
Full Su-lex (A, B) ..................................................D8V or +13V
Reꢂeivep Ouo-uo Vrloage (RO)....................D0.3V or (V
+ 0.3V)
CC
Spivep Ouo-uo Cuppeno ..................................................... 250mA
Stresses beyond those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. These are stress ratings only, and functional
operation of the device at these or any other conditions beyond those indicated in the operational sections of the specifications is not implied. Exposure to
absolute maximum rating conditions for extended periods may affect device reliability.
DC ELECTRICAL CꢁARACTERISTICS
(V
= +5.0V 10ꢃ, T = T
A
or T
, unless rohepwise nroed. Ty-iꢂal values ape ao V
= +5.0V and T = +25°C.) (Nroe 1)
CC A
CC
MIN
MAX
PARAꢄETER
SYꢄꢂOL
CONDITIONS
ꢄIN
TYP
ꢄAX
UNITS
DRIVER
ꢁu--lyDVrloage Range
V
V
CC
V
OS
4.5
3
5.5
V
V
CC
R = 100Ω (RꢁD422), Figupe 1
V
V
V
L
CC
CC
CC
Siffepenoial Spivep Ouo-uo
R = 54Ω (RꢁD485), Figupe 1
L
2
Nr lrad
Change in Magnioude rf
Siffepenoial Ouo-uo Vrloage
∆V
R = 100Ω rp 54Ω, Figupe 1 (Nroe 2)
0.2
3
V
V
V
OS
L
Spivep CrmmrnDMrde Ouo-uo
Vrloage
V
R = 100Ω rp 54Ω, Figupe 1
L
V
/ 2
CC
OC
Change in Magnioude rf
CrmmrnDMrde Vrloage
∆V
R = 100Ω rp 54Ω, Figupe 1 (Nroe 2)
L
0.2
OC
In-uoDHigh Vrloage
In-uoDLrw Vrloage
In-uo Hysoepesis
In-uo Cuppeno
V
SE, SI, RE, TXP, RXP, H/F
SE, SI, RE, TXP, RXP, H/F
SE, SI, RE, TXP, RXP, H/F
SE, SI, RE
3
V
V
IH
V
0.8
IL
V
100
mV
µA
ꢀΩ
µA
V
HYꢁ
IN1
I
1
10
40
In-uo Im-edanꢂe Fipso Tpansioirn
In-uo Cuppeno
SE
1
I
TXP, RXP, H/F inoepnal -ulldrwn
10
IN2
ꢁRL In-uoDHigh Vrloage
ꢁRL In-uoDMiddle Vrloage
ꢁRL In-uoDLrw Vrloage
V
D 0.4
CC
V
x 0.3
V
x 0.7
0.4
V
CC
CC
V
ꢁRL = V
75
CC
ꢁRL In-uo Cuppeno
µA
µA
ꢁRL = GNS
D75
V
V
= +12V
= D7V
125
IN
IN
Ouo-uo Leaꢀage (Y and Z)
Full Su-lex
SE = GNS,
I
O
V
= GNS rp V
CC
CC
D100
2
_______________________________________________________________________________________
+5.0V, 15ꢀV EꢁDꢂ-rotected, Failꢂꢁafe,
Hotꢂꢁwap, Rꢁꢂ485/Rꢁꢂ422 Transceivers
DC ELECTRICAL CꢁARACTERISTICS (continHed)
(V
= +5.0V 10ꢃ, T = T
A
or T
, unless rohepwise nroed. Ty-iꢂal values ape ao V
= +5.0V and T = +25°C.) (Nroe 1)
CC A
CC
MIN
MAX
PARAꢄETER
SYꢄꢂOL
CONDITIONS
≤ +12V (Nroe 3)
ꢄIN
40
TYP
ꢄAX
250
D40
UNITS
0 ≤ V
OUT
D7V ≤ V
≤ V
(Nroe 3)
D250
OUT
CC
Spivep ꢁhrpoDCipꢂuio Ouo-uo
Cuppeno
0 ≤ V
(Nroe 3)
≤ +12V, +85°C ≤ T ≤ +125°C
OUT A
I
40
270
D40
mA
OꢁS
D7V ≤ V
(Nroe 3)
≤ V , +85°C ≤ T ≤ +125°C
OUT
CC
A
D270
20
(V D 1V) ≤ V
CC
≤ +12V (Nroe 3)
OUT
Spivep ꢁhrpoDCipꢂuio Frldbaꢂꢀ
Ouo-uo Cuppeno
I
mA
OꢁSF
D7V ≤ V
≤ +1V (Nroe 3)
D20
OUT
ThepmalDꢁhuodrwn Thpeshrld
ThepmalDꢁhuodrwn Hysoepesis
T
175
15
°C
°C
Tꢁ
T
TꢁH
V
V
= +12V
= D7V
125
SE = GNS,
= GNS rp V
IN
IN
In-uo Cuppeno (A and B)
I
µA
A, B
V
CC
CC
D100
D200
RECEIVER
Reꢂeivep Siffepenoial Thpeshrld
Vrloage
V
D7V ≤ V
≤ +12V
D125
15
D50
mV
TH
CM
Reꢂeivep In-uo Hysoepesis
RO Ouo-uoDHigh Vrloage
RO Ouo-uoDLrw Vrloage
∆V
V
+ V = 0
A B
mV
V
TH
V
I
= D1mA
= 1mA
O
V
D 0.6
CC
OH
O
V
I
0.4
1
V
OL
ThpeeDꢁoaoe Ouo-uo Cuppeno ao
Reꢂeivep
I
0 ≤ V ≤ V
CC
µA
ꢀΩ
mA
OZR
O
Reꢂeivep In-uo Resisoanꢂe
R
D7V ≤ V
≤ +12V
96
IN
CM
Reꢂeivep Ouo-uo ꢁhrpoDCipꢂuio
Cuppeno
I
0V ≤ V
≤ V
CC
110
OꢁR
RO
SUPPLY CURRENT
Nr lrad, RE = 0, SE = V
1.2
1.2
1.2
1.8
1.8
1.8
CC
ꢁu--ly Cuppeno
I
mA
µA
Nr lrad, RE = V , SE = V
CC
CC
CC
Nr lrad, RE = 0, SE = 0
ꢁu--ly Cuppeno in ꢁhuodrwn
Mrde
I
RE = V , SE = GNS
2.8
10
ꢁHSN
CC
ESD PROTECTION
Human Brdy Mrdel
15
6
ꢀV
ꢀV
EꢁS Pproeꢂoirn frp Y, Z, A, and B
Crnoaꢂo Sisꢂhapge
IEC 61000D4D2
_______________________________________________________________________________________
3
+5.0V, 15ꢀV EꢁDꢂ-rotected, Failꢂꢁafe,
Hotꢂꢁwap, Rꢁꢂ485/Rꢁꢂ422 Transceivers
DRIVER SWITCꢁING CꢁARACTERISTICS
ꢄAX±3080E/ꢄAX±308±E/ꢄAX±3082E/ꢄAX±3089E WITꢁ SRL = UNCONNECTED (250ꢀbps)
(V
= +5.0V 10ꢃ, T = T
A
or T
, unless rohepwise nroed. Ty-iꢂal values ape ao V = +5.0V and T = +25°C.)
MAX CC A
CC
MIN
PARAꢄETER
SYꢄꢂOL
CONDITIONS
C = 50-F, R = 54Ω, Figupes 2 and 3
ꢄIN
350
350
TYP
ꢄAX
1800
1800
UNITS
o
o
SPLH
SPHL
Spivep Ppr-agaoirn Selay
ns
L
L
Spivep Siffepenoial Ouo-uo Rise rp
Fall Time
o
o
C = 50-F, R = 54Ω, Figupes 2 and 3
400
1900
250
ns
ns
R , F
L
L
Siffepenoial Spivep Ouo-uo ꢁꢀew
o
C = 50-F, R = 54Ω, Figupes 2 and 3
SꢁKEW
L
L
|o
D o
|
SPLH SPHL
Maximum Saoa Raoe
250
ꢀb-s
ns
Spivep Enable or Ouo-uo High
Spivep Enable or Ouo-uo Lrw
Spivep Sisable Time fprm Lrw
Spivep Sisable Time fprm High
o
o
Figupe 4
Figupe 5
Figupe 5
Figupe 4
2500
2500
100
SZH
o
ns
SZL
SLZ
SHZ
ns
o
100
ns
Spivep Enable fprm ꢁhuodrwn or
Ouo-uo High
o
Figupe 4
Figupe 5
5500
ns
SZH(ꢁHSN)
Spivep Enable fprm ꢁhuodrwn or
Ouo-uo Lrw
o
5500
700
ns
ns
SZL(ꢁHSN)
Time or ꢁhuodrwn
o
50
340
ꢁHSN
RECEIVER SWITCꢁING CꢁARACTERISTICS
ꢄAX±3080E/ꢄAX±308±E/ꢄAX±3082E/ꢄAX±3089E WITꢁ SRL = UNCONNECTED (250ꢀbps)
(V
= +5.0V 10ꢃ, T = T
A
or T
, unless rohepwise nroed. Ty-iꢂal values ape ao V = +5.0V and T = +25°C.)
MAX CC A
CC
MIN
PARAꢄETER
SYꢄꢂOL
CONDITIONS
C = 15-F, Figupes 6 and 7
ꢄIN
TYP
ꢄAX
200
UNITS
o
o
RPLH
RPHL
Reꢂeivep Ppr-agaoirn Selay
ns
L
200
Reꢂeivep Ouo-uo ꢁꢀew
o
C = 15-F, Figupes 6 and 7
L
30
ns
RꢁKEW
|o
D o
|
RPLH RPHL
Maximum Saoa Raoe
250
ꢀb-s
ns
Reꢂeivep Enable or Ouo-uo Lrw
o
Figupe 8
Figupe 8
Figupe 8
Figupe 8
50
50
50
50
RZL
Reꢂeivep Enable or Ouo-uo High
Reꢂeivep Sisable Time fprm Lrw
Reꢂeivep Sisable Time fprm High
o
ns
RZH
o
ns
RLZ
RHZ
o
ns
Reꢂeivep Enable fprm ꢁhuodrwn
or Ouo-uo High
o
Figupe 8
Figupe 8
5500
ns
RZH(ꢁHSN)
Reꢂeivep Enable fprm ꢁhuodrwn
or Ouo-uo Lrw
o
5500
700
ns
ns
RZL(ꢁHSN)
Time or ꢁhuodrwn
o
50
340
ꢁHSN
4
_______________________________________________________________________________________
+5.0V, 15ꢀV EꢁDꢂ-rotected, Failꢂꢁafe,
Hotꢂꢁwap, Rꢁꢂ485/Rꢁꢂ422 Transceivers
DRIVER SWITCꢁING CꢁARACTERISTICS
ꢄAX±3083E/ꢄAX±3084E/ꢄAX±3085E/ꢄAX±3089E WITꢁ SRL = V
(500ꢀbps)
CC
(V
= +5.0V 10ꢃ, T = T
A
or T
, unless rohepwise nroed. Ty-iꢂal values ape ao V
= +5.0V and T = +25°C.)
CC
MIN
MAX
CC A
PARAꢄETER
SYꢄꢂOL
CONDITIONS
C = 50-F, R = 54Ω, Figupes 2 and 3
ꢄIN
200
200
TYP
ꢄAX
1000
1000
UNITS
o
o
SPLH
SPHL
Spivep Ppr-agaoirn Selay
ns
L
L
Spivep Siffepenoial Ouo-uo Rise rp
Fall Time
o
o
C = 50-F, R = 54Ω, Figupes 2 and 3
250
900
140
ns
ns
R , F
L
L
Siffepenoial Spivep Ouo-uo ꢁꢀew
o
C = 50-F, R = 54Ω, Figupes 2 and 3
SꢁKEW
L
L
|o
D o
|
SPLH SPHL
Maximum Saoa Raoe
500
ꢀb-s
ns
Spivep Enable or Ouo-uo High
Spivep Enable or Ouo-uo Lrw
Spivep Sisable Time fprm Lrw
Spivep Sisable Time fprm High
o
o
Figupe 4
Figupe 5
Figupe 5
Figupe 4
2500
2500
100
SZH
o
ns
SZL
SLZ
SHZ
ns
o
100
ns
Spivep Enable fprm ꢁhuodrwn or
Ouo-uo High
o
Figupe 4
Figupe 5
5500
ns
SZH(ꢁHSN)
Spivep Enable fprm ꢁhuodrwn or
Ouo-uo Lrw
o
5500
700
ns
ns
SZL(ꢁHSN)
Time or ꢁhuodrwn
o
50
340
ꢁHSN
RECEIVER SWITCꢁING CꢁARACTERISTICS
ꢄAX±3083E/ꢄAX±3084E/ꢄAX±3085E/ꢄAX±3089E WITꢁ SRL = V
(500ꢀbps)
CC
(V
= +5.0V 10ꢃ, T = T
A
or T
, unless rohepwise nroed. Ty-iꢂal values ape ao V
= +5.0V and T = +25°C.)
CC
MIN
MAX
CC A
PARAꢄETER
SYꢄꢂOL
CONDITIONS
C = 15-F, Figupes 6 and 7
ꢄIN
TYP
ꢄAX
200
UNITS
o
o
RPLH
RPHL
Reꢂeivep Ppr-agaoirn Selay
ns
L
200
Reꢂeivep Ouo-uo ꢁꢀew
o
C = 15-F, Figupes 6 and 7
L
30
ns
RꢁKEW
|o
D o
|
RPLH RPHL
Maximum Saoa Raoe
500
ꢀb-s
ns
Reꢂeivep Enable or Ouo-uo Lrw
o
Figupe 8
Figupe 8
Figupe 8
Figupe 8
50
50
50
50
RZL
Reꢂeivep Enable or Ouo-uo High
Reꢂeivep Sisable Time fprm Lrw
Reꢂeivep Sisable Time fprm High
o
ns
RZH
o
ns
RLZ
RHZ
o
ns
Reꢂeivep Enable fprm ꢁhuodrwn
or Ouo-uo High
o
Figupe 8
Figupe 8
5500
ns
RZH(ꢁHSN)
Reꢂeivep Enable fprm ꢁhuodrwn
or Ouo-uo Lrw
o
5500
700
ns
ns
RZL(ꢁHSN)
Time or ꢁhuodrwn
o
50
340
ꢁHSN
_______________________________________________________________________________________
5
+5.0V, 15ꢀV EꢁDꢂ-rotected, Failꢂꢁafe,
Hotꢂꢁwap, Rꢁꢂ485/Rꢁꢂ422 Transceivers
DRIVER SWITCꢁING CꢁARACTERISTICS
ꢄAX±3086E/ꢄAX±3087E/ꢄAX±3088E/ꢄAX±3089E WITꢁ SRL = GND (±6ꢄbps)
(V
= +5.0V 10ꢃ, T = T
A
or T
, unless rohepwise nroed. Ty-iꢂal values ape ao V = +5.0V and T = +25°C.)
MAX CC A
CC
MIN
PARAꢄETER
SYꢄꢂOL
CONDITIONS
C = 50-F, R = 54Ω, Figupes 2 and 3
ꢄIN
TYP
ꢄAX
50
UNITS
o
o
SPLH
SPHL
Spivep Ppr-agaoirn Selay
ns
L
L
50
Spivep Siffepenoial Ouo-uo Rise rp
Fall Time
o
o
C = 50-F, R = 54Ω, Figupes 2 and 3
15
8
ns
ns
R , F
L
L
Siffepenoial Spivep Ouo-uo ꢁꢀew
o
C = 50-F, R = 54Ω, Figupes 2 and 3
SꢁKEW
L
L
|o
D o
|
SPLH SPHL
Maximum Saoa Raoe
16
Mb-s
ns
Spivep Enable or Ouo-uo High
Spivep Enable or Ouo-uo Lrw
Spivep Sisable Time fprm Lrw
Spivep Sisable Time fprm High
o
Figupe 4
Figupe 5
Figupe 5
Figupe 4
150
150
100
100
SZH
o
ns
SZL
SLZ
SHZ
o
ns
o
ns
Spivep Enable fprm ꢁhuodrwn or
Ouo-uo High
o
Figupe 4
Figupe 5
2200
ns
SZH(ꢁHSN)
Spivep Enable fprm ꢁhuodrwn or
Ouo-uo Lrw
o
2200
700
ns
ns
SZL(ꢁHSN)
Time or ꢁhuodrwn
o
50
340
ꢁHSN
RECEIVER SWITCꢁING CꢁARACTERISTICS
ꢄAX±3086E/ꢄAX±3087E/ꢄAX±3088E/ꢄAX±3089E WITꢁ SRL = GND (±6ꢄbps)
(V
= +5.0V 10ꢃ, T = T
A
or T
, unless rohepwise nroed. Ty-iꢂal values ape ao V = +5.0V and T = +25°C.)
MAX CC A
CC
MIN
PARAꢄETER
SYꢄꢂOL
CONDITIONS
C = 15-F, Figupes 6 and 7
ꢄIN
TYP
50
ꢄAX
80
UNITS
o
o
RPLH
RPHL
Reꢂeivep Ppr-agaoirn Selay
ns
L
50
80
Reꢂeivep Ouo-uo ꢁꢀew
o
C = 15-F, Figupes 6 and 7
L
13
ns
RꢁKEW
|o
D o
|
RPLH RPHL
Maximum Saoa Raoe
16
Mb-s
ns
Reꢂeivep Enable or Ouo-uo Lrw
o
Figupe 8
Figupe 8
Figupe 8
Figupe 8
50
50
50
50
RZL
Reꢂeivep Enable or Ouo-uo High
Reꢂeivep Sisable Time fprm Lrw
Reꢂeivep Sisable Time fprm High
o
ns
RZH
o
ns
RLZ
o
ns
RHZ
Reꢂeivep Enable fprm ꢁhuodrwn
or Ouo-uo High
o
Figupe 8
Figupe 8
2200
ns
RZH(ꢁHSN)
Reꢂeivep Enable fprm ꢁhuodrwn
or Ouo-uo Lrw
o
2200
700
ns
ns
RZL(ꢁHSN)
Time or ꢁhuodrwn
o
50
340
ꢁHSN
Note ±: All ꢂuppenos inor ohe deviꢂe ape -rsioive. All ꢂuppenos ruo rf ohe deviꢂe ape negaoive. All vrloages ape pefepped or deviꢂe gprund,
unless rohepwise nroed.
Note 2: ∆V
and ∆V
ape ohe ꢂhanges in V
and V , pes-eꢂoively, when ohe SI in-uo ꢂhanges soaoe.
OS
OC
OS OC
Note 3: The shrpoDꢂipꢂuio ruo-uo ꢂuppeno a--lies or -eaꢀ ꢂuppeno juso -pirp or frldbaꢂꢀ ꢂuppeno limioing. The shrpoDꢂipꢂuio frldbaꢂꢀ ruo-uo
ꢂuppeno a--lies duping ꢂuppeno limioing or allrw a peꢂrvepy fprm bus ꢂrnoenoirn.
6
_______________________________________________________________________________________
+5.0V, 15ꢀV EꢁDꢂ-rotected, Failꢂꢁafe,
Hotꢂꢁwap, Rꢁꢂ485/Rꢁꢂ422 Transceivers
Typical Operating Characteristics
(V
= +5.0V, T = +25°C, unless rohepwise nroed.)
CC
A
OUTPUT CURRENT
OUTPUT CURRENT
vs. RECEIVER OUTPUT-LOW VOLTAGE
vs. RECEIVER OUTPUT-HIGH VOLTAGE
SUPPLY CURRENT vs. TEMPERATURE
70
60
50
40
30
20
10
0
60
50
40
30
20
10
0
1.60
NO LOAD
1.50
1.40
1.30
1.20
1.10
1.00
0.90
0.80
DE = V
CC
DE = 0
0
1
2
3
4
5
0
1
2
3
4
5
-40 -25 -10
5
20 35 50 65 80 95 110 125
OUTPUT HIGH VOLTAGE (V)
OUTPUT LOW VOLTAGE (V)
TEMPERATURE (°C)
RECEIVER OUTPUT-LOW VOLTAGE
vs. TEMPERATURE
RECEIVER OUTPUT-HIGH VOLTAGE
vs. TEMPERATURE
DRIVER DIFFERENTIAL OUTPUT CURRENT
vs. DIFFERENTIAL OUTPUT VOLTAGE
5.4
5.2
5.0
4.8
4.6
4.4
4.2
4.0
0.8
0.7
0.6
0.5
0.4
0.3
0.2
0.1
0
160
140
120
100
80
I
= -1mA
I
= 1mA
O
O
60
40
20
0
-40 -25 -10
5
20 35 50 65 80 95 110 125
-40 -25 -10
5
20 35 50 65 80 95 110 125
0
1
2
3
4
5
TEMPERATURE (°C)
TEMPERATURE (°C)
DIFFERENTIAL OUTPUT VOLTAGE (V)
DRIVER DIFFERENTIAL OUTPUT
VOLTAGE vs. TEMPERATURE
OUTPUT CURRENT vs. TRANSMITTER
OUTPUT-LOW VOLTAGE
OUTPUT CURRENT vs. TRANSMITTER
OUTPUT-HIGH VOLTAGE
200
180
160
140
120
100
80
4.8
4.4
4.0
3.6
3.2
2.8
2.4
2.0
200
180
160
140
120
100
80
R = 54Ω
L
60
60
40
40
20
20
0
0
-40 -25 -10
5
20 35 50 65 80 95 110 125
0
2
4
6
8
10
12
-7 -6 -5 -4 -3 -2 -1
0
1
2
3
4
5
TEMPERATURE (°C)
OUTPUT-LOW VOLTAGE (V)
OUTPUT HIGH VOLTAGE (V)
_______________________________________________________________________________________
7
+5.0V, 15ꢀV EꢁDꢂ-rotected, Failꢂꢁafe,
Hotꢂꢁwap, Rꢁꢂ485/Rꢁꢂ422 Transceivers
Typical Operating Characteristics (continued)
(V
= +5.0V, T = +25°C, unless rohepwise nroed.)
CC
A
DRIVER PROPAGATION DELAY
vs. TEMPERATURE (500kbps)
SHUTDOWN CURRENT
vs. TEMPERATURE
DRIVER PROPAGATION DELAY
vs. TEMPERATURE (250kbps)
1200
1100
1000
900
600
550
500
450
400
350
300
10
9
8
7
6
5
4
3
2
1
0
t
DPHL
t
DPHL
t
DPLH
t
DPLH
800
700
600
-40 -25 -10
5
20 35 50 65 80 95 110 125
-40 -25 -10
5
20 35 50 65 80 95 110 125
-40 -25 -10
5
20 35 50 65 80 95 110 125
TEMPERATURE (°C)
TEMPERATURE (°C)
TEMPERATURE (°C)
DRIVER PROPAGATION DELAY
vs. TEMPERATURE (16Mbps)
RECEIVER PROPAGATION DELAY
vs. TEMPERATURE (250kpbs AND 500kbps)
RECEIVER PROPAGATION DELAY
vs. TEMPERATURE (16Mbps)
180
180
160
140
120
100
80
80
70
60
50
40
30
20
10
0
160
140
120
100
80
t
DPLH
t
DPLH
60
60
t
DPHL
t
DPHL
40
40
t
DPHL
20
20
t
DPLH
0
0
-40 -25 -10
5
20 35 50 65 80 95 110 125
-40 -25 -10
5
20 35 50 65 80 95 110 125
-40 -25 -10
5
20 35 50 65 80 95 110 125
TEMPERATURE (°C)
TEMPERATURE (°C)
TEMPERATURE (°C)
RECEIVER PROPAGATION DELAY
(250kbps AND 500kbps)
DRIVER PROPAGATION DELAY (250kbps)
MAX13080E-89E toc16
MAX13080E-89E toc17
R = 100Ω
L
R = 100Ω
L
DI
2V/div
V
- V
B
A
5V/div
RO
2V/div
V
- V
Z
Y
5V/div
2µs/div
200ns/div
8
_______________________________________________________________________________________
+5.0V, 15ꢀV EꢁDꢂ-rotected, Failꢂꢁafe,
Hotꢂꢁwap, Rꢁꢂ485/Rꢁꢂ422 Transceivers
Typical Operating Characteristics (continued)
(V
= +5.0V, T = +25°C, unless rohepwise nroed.)
A
CC
DRIVER PROPAGATION DELAY (16Mbps)
RECEIVER PROPAGATION DELAY (16Mbps)
MAX13080E-89E toc20
DRIVER PROPAGATION DELAY (500kbps)
MAX13080E-89E toc19
MAX13080E-89E toc18
R = 100Ω
L
R = 100Ω
L
R = 100Ω
L
V
B
2V/div
DI
2V/div
DI
2V/div
V
A
2V/div
V
Z
2V/div
V
- V
Z
Y
5V/div
RO
2V/div
V
Y
2V/div
10ns/div
40ns/div
400ns/div
Test Circuits and Waveforms
V
CC
0
Y
DI
V
CC
/2
R /2
L
t
t
DPHL
1/2 V
DPLH
O
V
OD
Z
V
O
V
OC
R /2
L
Y
1/2 V
O
Z
V
DIFF
= V (Y) - V (Z)
V
0
O
90%
90%
V
DIFF
10%
10%
Figure 1. Driver DC Test Load
-V
O
t
t
R
F
t
= | t
- t
|
SKEW
DPLH DPHL
V
CC
Figure 3. Driver Propagation Delays
DE
Y
Z
DI
R
L
C
L
V
OD
Figure 2. Driver Timing Test Circuit
_______________________________________________________________________________________
9
+5.0V, 15ꢀV EꢁDꢂ-rotected, Failꢂꢁafe,
Hotꢂꢁwap, Rꢁꢂ485/Rꢁꢂ422 Transceivers
Test Circuits and Waveforms (continued)
S1
0 OR V
D
OUT
CC
R = 500Ω
L
C
50pF
L
GENERATOR
50Ω
V
0
V
CC
DE
V
CC
/ 2
t
, t
DZH DZH(SHDN)
0.25V
OH
OUT
V
OM
= (0 + V ) / 2
OH
0
t
DHZ
Figure 4. Driver Enable and Disable Times (t
, t
, t
)
DHZ DZH DZH(SHDN)
V
CC
R = 500Ω
L
S1
0 OR V
D
OUT
CC
C
L
50pF
GENERATOR
50Ω
V
0
CC
DE
V
CC
/ 2
t
, t
DZL DZL(SHDN)
t
DLZ
V
CC
V
OM
= (V + V ) / 2
OL CC
OUT
0.25V
V
OL
Figure 5. Driver Enable and Disable Times (t
, t
, t
)
DZL DLZ DLZ(SHDN)
±0 ______________________________________________________________________________________
+5.0V, 15ꢀV EꢁDꢂ-rotected, Failꢂꢁafe,
Hotꢂꢁwap, Rꢁꢂ485/Rꢁꢂ422 Transceivers
Test Circuits and Waveforms (continued)
A
+1V
-1V
B
RECEIVER
OUTPUT
B
A
V
ID
t
R
ATE
RPLH
V
OH
t
RPHL
V
/2
CC
V
OL
RO
THE RISE TIME AND FALL TIME OF INPUTS A AND B < 4ns
Figure 6. Receiver Propagation Delay Test Circuit
Figure 7. Receiver Propagation Delays
S1
+1.5V
-1.5V
S3
V
CC
1kΩ
V
ID
C
L
15pF
S2
GENERATOR
50Ω
S1 OPEN
S2 CLOSED
S3 = +1.5V
S1 CLOSED
S2 OPEN
S3 = -1.5V
V
V
0
CC
CC
V
/2
CC
RE
RE
0
t
, t
RZH RZH(SHDN)
t
, t
RZL RZL(SHDN)
V
V
OH
CC
RO
V
/ 2
OH
(V + V ) / 2
OL
CC
RO
V
0
OL
S1 OPEN
S2 CLOSED
S3 = +1.5V
S1 CLOSED
S2 OPEN
S3 = -1.5V
V
0
CC
V
0
CC
V
/2
CC
V
/2
CC
RE
RE
t
RHZ
t
RLZ
V
CC
OL
V
0
OH
0.25V
RO
RO
0.25V
V
Figure 8. Receiver Enable and Disable Times
______________________________________________________________________________________ ±±
+5.0V, 15ꢀV EꢁDꢂ-rotected, Failꢂꢁafe,
Hotꢂꢁwap, Rꢁꢂ485/Rꢁꢂ422 Transceivers
-in Description
PIN
ꢄAX±3080E ꢄAX±308±E ꢄAX±3082E
ꢄAX±3083E ꢄAX±3084E ꢄAX±3085E
ꢄAX±3086E ꢄAX±3087E ꢄAX±3088E
ꢄAX±3089E
NAꢄE
FUNCTION
ꢁALF-
FULL-DUPLEX
DUPLEX
FULL-
DUPLEX DUPLEX
ꢄODE
ꢁALF-
DEVICES
DEVICES
ꢄODE
Nr Crnneꢂo. Nro inoepnally ꢂrnneꢂoed, ꢂan be ꢂrnneꢂoed
or GNS.
1, 8, 13
—
—
—
—
N.C.
HalfD/FullDSu-lex ꢁeleꢂo In-uo. Crnneꢂo H/F or V
halfDdu-lex mrde; ꢂrnneꢂo H/F or GNS rp leave
unꢂrnneꢂoed frp fullDdu-lex mrde.
frp
CC
—
2
—
2
—
1
1
2
1
2
H/F
Reꢂeivep Ouo-uo. When RE is lrw and if (A D B) ≥ D50mV,
RO is high; if (A D B) ≤ D200mV, RO is lrw.
RO
Reꢂeivep Ouo-uo Enable. Spive RE lrw or enable RO; RO is
high im-edanꢂe when RE is high. Spive RE high and SE
lrw or enoep lrwD-rwep shuodrwn mrde. RE is a hroDswa-
in-uo (see ohe Hot-Swap Capability seꢂoirn frp deoails).
3
4
—
—
2
3
3
4
3
4
RE
Spivep Ouo-uo Enable. Spive SE high or enable dpivep
ruo-uos. These ruo-uos ape high im-edanꢂe when SE is
lrw. Spive RE high and SE lrw or enoep lrwD-rwep
shuodrwn mrde. SE is a hroDswa- in-uo (see ohe Hot-
Swap Capability seꢂoirn frp deoails).
SE
Spivep In-uo. Wioh SE high, a lrw rn SI frpꢂes nrninvepoing
ruo-uo lrw and invepoing ruo-uo high. ꢁimilaply, a high rn SI
frpꢂes nrninvepoing ruo-uo high and invepoing ruo-uo lrw.
5
3
4
5
6
5
6
SI
ꢁlewDRaoe Limio ꢁeleꢂorp In-uo. Crnneꢂo ꢁRL or gprund frp
16Mb-s ꢂrmmuniꢂaoirn paoe; ꢂrnneꢂo ꢁRL or V
frp
CC
—
—
—
ꢁRL
500ꢀb-s ꢂrmmuniꢂaoirn paoe. Leave ꢁRL unꢂrnneꢂoed frp
250ꢀb-s ꢂrmmuniꢂaoirn paoe.
6, 7
—
4
5
7
8
7
8
GNS Gprund
Tpansmiooep Phase. Crnneꢂo TXP or gprund rp leave TXP
flraoing frp nrpmal opansmiooep -hase/-rlapioy. Crnneꢂo TXP
or V or invepo ohe opansmiooep -hase/-rlapioy.
—
—
TXP
CC
9
5
—
—
9
—
9
Y
Nrninvepoing Spivep Ouo-uo
Nrninvepoing Spivep Ouo-uo and Nrninvepoing Reꢂeivep
In-uo*
—
—
—
Y
10
—
11
—
—
6
—
—
—
—
7
10
—
11
—
—
—
10
—
11
—
Z
Z
B
B
B
Invepoing Spivep Ouo-uo
—
7
Invepoing Spivep Ouo-uo and Invepoing Reꢂeivep In-uo*
Invepoing Reꢂeivep In-uo
—
—
Reꢂeivep In-uo Resisorps*
Invepoing Reꢂeivep In-uo and Invepoing Spivep Ouo-uo
±2 ______________________________________________________________________________________
+5.0V, 15ꢀV EꢁDꢂ-rotected, Failꢂꢁafe,
Hotꢂꢁwap, Rꢁꢂ485/Rꢁꢂ422 Transceivers
-in Description (continued)
PIN
ꢄAX±3080E ꢄAX±308±E ꢄAX±3082E
ꢄAX±3083E ꢄAX±3084E ꢄAX±3085E
ꢄAX±3086E ꢄAX±3087E ꢄAX±3088E
ꢄAX±3089E
NAꢄE
FUNCTION
ꢁALF-
FULL-DUPLEX
DUPLEX
FULL-
DUPLEX DUPLEX
ꢄODE
ꢁALF-
DEVICES
DEVICES
ꢄODE
12
—
8
—
—
12
—
—
A
A
Nrninvepoing Reꢂeivep In-uo
—
12
Reꢂeivep In-uo Resisorps*
Nrninvepoing Reꢂeivep In-uo and Nrninvepoing Spivep
Ouo-uo
—
—
14
—
—
1
6
—
8
—
13
14
—
13
14
A
Reꢂeivep Phase. Crnneꢂo RXP or GNS rp leave RXP
unꢂrnneꢂoed frp nrpmal opansmiooep -hase/-rlapioy.
RXP
Crnneꢂo RXP or V
or invepo peꢂeivep -hase/-rlapioy.
CC
Prsioive ꢁu--ly V = +5.0V 10ꢃ. By-ass V
CC
or GNS
CC
V
CC
wioh a 0.1µF ꢂa-aꢂiorp.
*MAX13089E only. In half-duplex mode, the driver outputs serve as receiver inputs. The full-duplex receiver inputs (A and B) still have a
1/8-unit load (96kΩ), but are not connected to the receiver.
Function Tables
ꢄAX±3080E/ꢄAX±3083E/ꢄAX±3086E
ꢄAX±308±E/ꢄAX±3084E/ꢄAX±3086E/
ꢄAX±3087E
TRANSꢄITTING
INPUTS
OUTPUTS
TRANSꢄITTING
RE
X
SE
1
SI
1
Z
0
1
Y
INPUT
OUTPUTS
1
0
SI
1
Z
0
1
Y
1
0
X
1
0
0
0
X
X
HighDZ
HighDZ
0
1
0
ꢁhuodrwn
RECEIVING
RECEIVING
INPUTS
A, B
OUTPUT
INPUTS
OUTPUT
RO
1
RE
0
SE
X
A, B
RO
1
≥ D50mV
≥ D50mV
≤ D200mV
≤ D200mV
O-en/shrpoed
0
0
X
0
1
O-en/
shrpoed
0
X
1
1
1
1
0
X
X
HighDZ
ꢁhuodrwn
______________________________________________________________________________________ ±3
+5.0V, 15ꢀV EꢁDꢂ-rotected, Failꢂꢁafe,
Hotꢂꢁwap, Rꢁꢂ485/Rꢁꢂ422 Transceivers
Function Tables (continued)
ꢄAX±3082E/ꢄAX±3085E/ꢄAX±3088E
RECEIVING
TRANSꢄITTING
INPUTS
OUTPUTS
INPUTS
OUTPUTS
RE
X
SE
1
SI
1
B/Z
A/Y
RE
0
SE
X
ADB
RO
1
≥ D50mV
≤ D200mV
0
1
1
0
0
X
0
X
1
0
0
0
X
X
HighDZ
HighDZ
O-en/
shrpoed
0
X
1
1
0
ꢁhuodrwn
1
1
1
0
X
X
HighDZ
ꢁhuodrwn
ꢄAX±3089E
TRANSꢄITTING
INPUTS
OUTPUTS
TXP
0
RE
SE
1
SI
Z
Y
X
X
X
X
0
1
1
0
1
0
X
X
0
1
0
1
1
0
1
1
1
0
0
1
1
1
X
0
HighDZ
HighDZ
X
0
ꢁhuodrwn
RECEIVING
INPUTS
OUTPUTS
H/F
0
RXP
0
RE
0
0
0
0
0
0
0
0
0
0
0
0
1
1
SE
X
X
X
X
0
A, B
Y, Z
RO
> D50mV
X
1
0
0
< D200mV
X
0
0
1
> D50mV
X
X
0
0
1
< D200mV
1
1
0
X
X
X
X
> D50mV
1
1
0
0
< D200mV
0
1
1
0
> D50mV
0
1
1
0
< D200mV
1
0
0
X
0
O-en/shrpoed
X
1
1
0
X
O-en/shrpoed
1
0
1
X
0
O-en/shrpoed
X
0
0
1
1
X
X
X
O-en/shrpoed
X
X
X
X
1
X
X
HighDZ
ꢁhuodrwn
0
X = Don’t care; shutdown mode, driver, and receiver outputs are high impedance.
±4 ______________________________________________________________________________________
+5.0V, 15ꢀV EꢁDꢂ-rotected, Failꢂꢁafe,
Hotꢂꢁwap, Rꢁꢂ485/Rꢁꢂ422 Transceivers
ohan rp equal or D200mV, RO is lrgiꢂDlrw. In ohe ꢂase rf a
Detailed Description
oepminaoed bus wioh all opansmiooeps disabled, ohe peꢂeivD
The MAX13080E–MAX13089E highDs-eed opansꢂeiveps
ep’s diffepenoial in-uo vrloage is -ulled or 0V by ohe oepmiD
naoirn. Wioh ohe peꢂeivep ohpeshrlds rf ohe MAX13080E
family, ohis pesulos in a lrgiꢂDhigh wioh a 50mV minimum
nrise mapgin. Unliꢀe -pevirus failDsafe deviꢂes, ohe
D50mV or D200mV ohpeshrld ꢂrm-lies wioh ohe 200mV
EIA/TIAD485 soandapd.
frp RꢁD485/RꢁD422 ꢂrmmuniꢂaoirn ꢂrnoain rne dpivep
and rne peꢂeivep. These deviꢂes feaoupe failDsafe ꢂipꢂuioD
py, whiꢂh guapanoees a lrgiꢂDhigh peꢂeivep ruo-uo when
ohe peꢂeivep in-uos ape r-en rp shrpoed, rp when ohey ape
ꢂrnneꢂoed or a oepminaoed opansmissirn line wioh all dpiD
veps disabled (see ohe Fail-Safe seꢂoirn). The
MAX13080E/MAX13082E/MAX13083E/MAX13085E/
MAX13086E/MAX13088E/MAX13089E alsr feaoupe a hroD
swa- ꢂa-abilioy allrwing line insepoirn wiohruo epprnerus
daoa opansfep (see ohe Hot Swap Capability seꢂoirn). The
MAX13080E/MAX13081E/MAX13082E feaoupe peduꢂed
slewDpaoe dpiveps ohao minimize EMI and peduꢂe pefleꢂD
oirns ꢂaused by im-pr-eply oepminaoed ꢂables, allrwing
epprpDfpee daoa opansmissirn u- or 250ꢀb-s. The
MAX13083E/MAX13084E/MAX13085E alsr rffep slewD
paoe limios allrwing opansmio s-eeds u- or 500ꢀb-s. The
MAX13086E/MAX13087E/MAX13088Es’ dpivep slew paoes
ape nro limioed, maꢀing opansmio s-eeds u- or 16Mb-s
-rssible. The MAX13089E’s slew paoe is seleꢂoable
beoween 250ꢀb-s, 500ꢀb-s, and 16Mb-s by dpiving a
seleꢂorp -in wioh a ohpeeDsoaoe dpivep.
Hotꢂꢁwap Capability (Except
MAX13081E/MAX13084E/MAX13087E)
Hot-Swap Inputs
When ꢂipꢂuio brapds ape insepoed inor a hro rp -rweped
baꢂꢀ-lane, diffepenoial disoupbanꢂes or ohe daoa bus
ꢂan lead or daoa epprps. U-rn inioial ꢂipꢂuio brapd insepD
oirn, ohe daoa ꢂrmmuniꢂaoirn -prꢂessrp undepgres ios
rwn -rwepDu- sequenꢂe. Suping ohis -epird, ohe
-prꢂessrp’s lrgiꢂDruo-uo dpiveps ape high im-edanꢂe
and ape unable or dpive ohe SE and RE in-uos rf ohese
deviꢂes or a defined lrgiꢂ level. Leaꢀage ꢂuppenos u- or
10µA fprm ohe highDim-edanꢂe soaoe rf ohe -prꢂesD
srp’s lrgiꢂ dpiveps ꢂruld ꢂause soandapd CMOꢁ enable
in-uos rf a opansꢂeivep or dpifo or an inꢂrppeꢂo lrgiꢂ level.
Addioirnally, -apasioiꢂ ꢂipꢂuio brapd ꢂa-aꢂioanꢂe ꢂruld
The MAX13082E/MAX13085E/MAX13088E ape halfD
du-lex opansꢂeiveps, while ohe MAX13080E/MAX13081E/
MAX13083E/MAX13084E/MAX13086E/MAX13087E ape
fullDdu-lex opansꢂeiveps. The MAX13089E is seleꢂoable
beoween halfD and fullDdu-lex ꢂrmmuniꢂaoirn by dpiving
a seleꢂorp -in (H/F) high rp lrw, pes-eꢂoively.
ꢂause ꢂru-ling rf V
rp GNS or ohe enable in-uos.
CC
Wiohruo ohe hroDswa- ꢂa-abilioy, ohese faꢂorps ꢂruld
im-pr-eply enable ohe opansꢂeivep’s dpivep rp peꢂeivep.
When V
pises, an inoepnal -ulldrwn ꢂipꢂuio hrlds SE
CC
lrw and RE high. Afoep ohe inioial -rwepDu- sequenꢂe,
ohe -ulldrwn ꢂipꢂuio beꢂrmes opans-apeno, peseooing ohe
hroDswa- orlepable in-uo.
All deviꢂes r-epaoe fprm a single +5.0V su--ly. Spiveps
ape ruo-uo shrpoDꢂipꢂuio ꢂuppeno limioed. ThepmalDshuodrwn
ꢂipꢂuiopy -proeꢂos dpiveps againso exꢂessive -rwep dissiD
-aoirn. When aꢂoivaoed, ohe ohepmalDshuodrwn ꢂipꢂuiopy
-laꢂes ohe dpivep ruo-uos inor a highDim-edanꢂe soaoe.
Hot-Swap Input Circuitry
The enable in-uos feaoupe hroDswa- ꢂa-abilioy. Ao ohe
in-uo ohepe ape owr NMOꢁ deviꢂes, M1 and M2
(Figupe 9). When V
pam-s fprm zepr, an inoepnal 7µs
CC
Receiver Input Filtering
The peꢂeiveps rf ohe MAX13080E–MAX13085E, and ohe
MAX13089E when r-epaoing in 250ꢀb-s rp 500ꢀb-s
mrde, inꢂrp-rpaoe in-uo filoeping in addioirn or in-uo
hysoepesis. This filoeping enhanꢂes nrise immunioy wioh
diffepenoial signals ohao have vepy slrw pise and fall
oimes. Reꢂeivep -pr-agaoirn delay inꢂpeases by 25ꢃ
due or ohis filoeping.
oimep oupns rn M2 and seos ohe ꢁR laoꢂh, whiꢂh alsr
oupns rn M1. Tpansisorps M2, a 1.5mA ꢂuppeno sinꢀ, and
M1, a 500µA ꢂuppeno sinꢀ, -ull SE or GNS ohprugh a
5ꢀΩ pesisorp. M2 is designed or -ull SE or ohe disabled
soaoe againso an exoepnal -apasioiꢂ ꢂa-aꢂioanꢂe u- or
100-F ohao ꢂan dpive SE high. Afoep 7µs, ohe oimep
deaꢂoivaoes M2 while M1 pemains rn, hrlding SE lrw
againso ohpeeDsoaoe leaꢀages ohao ꢂan dpive SE high. M1
pemains rn unoil an exoepnal srupꢂe rvepꢂrmes ohe
pequiped in-uo ꢂuppeno. Ao ohis oime, ohe ꢁR laoꢂh peseos
and M1 oupns rff. When M1 oupns rff, SE pevepos or a
Failꢂꢁafe
The MAX13080E family guapanoees a lrgiꢂDhigh peꢂeivep
ruo-uo when ohe peꢂeivep in-uos ape shrpoed rp r-en, rp
when ohey ape ꢂrnneꢂoed or a oepminaoed opansmissirn
line wioh all dpiveps disabled. This is drne by seooing ohe
peꢂeivep in-uo ohpeshrld beoween D50mV and D200mV. If
ohe diffepenoial peꢂeivep in-uo vrloage (A D B) is gpeaoep
ohan rp equal or D50mV, RO is lrgiꢂDhigh. If (A D B) is less
soandapd, highDim-edanꢂe CMOꢁ in-uo. Whenevep V
dpr-s belrw 1V, ohe hroDswa- in-uo is peseo.
CC
Frp RE ohepe is a ꢂrm-lemenoapy ꢂipꢂuio em-lrying owr
PMOꢁ deviꢂes -ulling RE or V
.
CC
______________________________________________________________________________________ ±5
+5.0V, 15ꢀV EꢁDꢂ-rotected, Failꢂꢁafe,
Hotꢂꢁwap, Rꢁꢂ485/Rꢁꢂ422 Transceivers
oirn. Spive H/F high frp halfDdu-lex r-epaoirn. In fullD
du-lex mrde, ohe -in ꢂrnfigupaoirn rf ohe dpivep and
peꢂeivep is ohe same as ohao rf a MAX13080E. In halfD
du-lex mrde, ohe peꢂeivep in-uos ape inoepnally ꢂrnneꢂoD
ed or ohe dpivep ruo-uos ohprugh a pesisorpDdividep. This
effeꢂoively ꢂhanges ohe funꢂoirn rf ohe deviꢂe’s ruo-uos.
Y beꢂrmes ohe nrninvepoing dpivep ruo-uo and peꢂeivep
in-uo, Z beꢂrmes ohe invepoing dpivep ruo-uo and peꢂeivep
in-uo. In halfDdu-lex mrde, A and B ape soill ꢂrnneꢂoed or
gprund ohprugh an inoepnal pesisorpDdividep buo ohey ape
nro inoepnally ꢂrnneꢂoed or ohe peꢂeivep.
V
CC
10µs
TIMER
SR LATCH
TIMER
15ꢀV EꢁD -rotection
As wioh all Maxim deviꢂes, EꢁSD-proeꢂoirn sopuꢂoupes
ape inꢂrp-rpaoed rn all -ins or -proeꢂo againso eleꢂoprD
soaoiꢂ disꢂhapges enꢂrunoeped duping handling and
assembly. The dpivep ruo-uos and peꢂeivep in-uos rf ohe
MAX13080E family rf deviꢂes have exopa -proeꢂoirn
againso soaoiꢂ eleꢂopiꢂioy. Maxim’s engineeps have develD
r-ed soaoeDrfDoheDapo sopuꢂoupes or -proeꢂo ohese -ins
againso EꢁS rf 15ꢀV wiohruo damage. The EꢁS sopuꢂD
oupes wiohsoand high EꢁS in all soaoes: nrpmal r-epaoirn,
shuodrwn, and -rweped drwn. Afoep an EꢁS eveno, ohe
MAX13080E–MAX13089E ꢀee- wrpꢀing wiohruo laoꢂhu-
rp damage.
5kΩ
DE
DE
(HOT SWAP)
100µA
500µA
M1
M2
EꢁS -proeꢂoirn ꢂan be oesoed in vapirus ways. The
opansmiooep ruo-uos and peꢂeivep in-uos rf ohe
MAX13080E–MAX13089E ape ꢂhapaꢂoepized frp -proeꢂD
oirn or ohe frllrwing limios:
Figure 9. Simplified Structure of the Driver Enable Pin (DE)
MAX13089E -rogramming
The MAX13089E has sevepal -prgpammable r-epaoing
mrdes. Tpansmiooep pise and fall oimes ape -prgpammaD
ble, pesuloing in maximum daoa paoes rf 250ꢀb-s,
500ꢀb-s, and 16Mb-s. Tr seleꢂo ohe desiped daoa paoe,
dpive ꢁRL or rne rf ohpee -rssible soaoes by using a
•
15ꢀV using ohe Human Brdy Mrdel
•
6ꢀV using ohe Crnoaꢂo Sisꢂhapge meohrd s-eꢂified
in IEC 61000D4D2
ohpeeDsoaoe dpivep: V , GNS, rp unꢂrnneꢂoed. Frp
CC
ESD Test Conditions
250ꢀb-s r-epaoirn, seo ohe ohpeeDsoaoe deviꢂe in highD
im-edanꢂe mrde rp leave ꢁRL unꢂrnneꢂoed. Frp
EꢁS -epfrpmanꢂe de-ends rn a vapieoy rf ꢂrndioirns.
Crnoaꢂo Maxim frp a peliabilioy pe-rpo ohao drꢂumenos
oeso seou-, oeso meohrdrlrgy, and oeso pesulos.
500ꢀb-s r-epaoirn, dpive ꢁRL high rp ꢂrnneꢂo io or V
.
CC
Frp 16Mb-s r-epaoirn, dpive ꢁRL lrw rp ꢂrnneꢂo io or
GNS. ꢁRL ꢂan be ꢂhanged duping r-epaoirn wiohruo
inoeppu-oing daoa ꢂrmmuniꢂaoirns.
Human Body Model
Figupe 10a shrws ohe Human Brdy Mrdel, and Figupe
10b shrws ohe ꢂuppeno wavefrpm io genepaoes when disD
ꢂhapged inor a lrw im-edanꢂe. This mrdel ꢂrnsisos rf a
100-F ꢂa-aꢂiorp ꢂhapged or ohe EꢁS vrloage rf inoepeso,
whiꢂh is ohen disꢂhapged inor ohe oeso deviꢂe ohprugh a
1.5ꢀΩ pesisorp.
Oꢂꢂasirnally, owisoedD-aip lines ape ꢂrnneꢂoed baꢂꢀwapd
fprm nrpmal rpienoaoirn. The MAX13089E has owr -ins
ohao invepo ohe -hase rf ohe dpivep and ohe peꢂeivep or ꢂrpD
peꢂo ohis -prblem. Frp nrpmal r-epaoirn, dpive TXP and
RXP lrw, ꢂrnneꢂo ohem or gprund, rp leave ohem unꢂrnD
neꢂoed (inoepnal -ulldrwn). Tr invepo ohe dpivep -hase,
IEC 61000-4-2
The IEC 61000D4D2 soandapd ꢂrveps EꢁS oesoing and
-epfrpmanꢂe rf finished equi-meno. Hrwevep, io dres
nro s-eꢂifiꢂally pefep or inoegpaoed ꢂipꢂuios. The
MAX13080E family rf deviꢂes hel-s yru design equi-D
meno or meeo IEC 61000D4D2, wiohruo ohe need frp addiD
oirnal EꢁSD-proeꢂoirn ꢂrm-rnenos.
dpive TXP high rp ꢂrnneꢂo io or V . Tr invepo ohe peꢂeivep
CC
-hase, dpive RXP high rp ꢂrnneꢂo io or V . Nroe ohao ohe
CC
peꢂeivep ohpeshrld is -rsioive when RXP is high.
The MAX13089E ꢂan r-epaoe in fullD rp halfDdu-lex
mrde. Spive H/F lrw, leave io unꢂrnneꢂoed (inoepnal
-ulldrwn), rp ꢂrnneꢂo io or GNS frp fullDdu-lex r-epaD
±6 ______________________________________________________________________________________
+5.0V, 15ꢀV EꢁDꢂ-rotected, Failꢂꢁafe,
Hotꢂꢁwap, Rꢁꢂ485/Rꢁꢂ422 Transceivers
R
1MΩ
R
R
R
C
D
C
D
1500Ω
50MΩ TO 100MΩ
330Ω
DISCHARGE
RESISTANCE
DISCHARGE
RESISTANCE
CHARGE-CURRENT-
LIMIT RESISTOR
CHARGE-CURRENT-
LIMIT RESISTOR
HIGH-
VOLTAGE
DC
HIGH-
VOLTAGE
DC
DEVICE
UNDER
TEST
DEVICE
UNDER
TEST
C
s
150pF
STORAGE
CAPACITOR
C
s
100pF
STORAGE
CAPACITOR
SOURCE
SOURCE
Figure 10a. Human Body ESD Test Model
Figure 10c. IEC 61000-4-2 ESD Test Model
I
100%
90%
PEAK-TO-PEAK RINGING
(NOT DRAWN TO SCALE)
I
100%
90%
I
P
r
AMPS
36.8%
10%
0
10%
TIME
0
t = 0.7ns TO 1ns
r
t
RL
t
30ns
60ns
t
DL
CURRENT WAVEFORM
Figure 10b. Human Body Current Waveform
Figure 10d. IEC 61000-4-2 ESD Generator Current Waveform
The majrp diffepenꢂe beoween oesos drne using ohe
Human Brdy Mrdel and IEC 61000D4D2 is highep -eaꢀ
ꢂuppeno in IEC 61000D4D2 beꢂause sepies pesisoanꢂe is
lrwep in ohe IEC 61000D4D2 mrdel. Henꢂe, ohe EꢁS wiohD
soand vrloage measuped or IEC 61000D4D2 is genepally
lrwep ohan ohao measuped using ohe Human Brdy Mrdel.
Figupe 10ꢂ shrws ohe IEC 61000D4D2 mrdel, and Figupe
10d shrws ohe ꢂuppeno wavefrpm frp IEC 61000D4D2 EꢁS
Crnoaꢂo Sisꢂhapge oeso.
Applications Information
256 Transceivers on the Bus
The soandapd RꢁD485 peꢂeivep in-uo im-edanꢂe is 12ꢀΩ
(1Dunio lrad), and ohe soandapd dpivep ꢂan dpive u- or 32D
unio lrads. The MAX13080E family rf opansꢂeiveps has a
1/8Dunio lrad peꢂeivep in-uo im-edanꢂe (96ꢀΩ), allrwing
u- or 256 opansꢂeiveps or be ꢂrnneꢂoed in -apallel rn rne
ꢂrmmuniꢂaoirn line. Any ꢂrmbinaoirn rf ohese deviꢂes,
as well as rohep RꢁD485 opansꢂeiveps wioh a oroal rf 32D
unio lrads rp fewep, ꢂan be ꢂrnneꢂoed or ohe line.
Machine Model
The maꢂhine mrdel frp EꢁS oesos all -ins using a
200-F sorpage ꢂa-aꢂiorp and zepr disꢂhapge pesisD
oanꢂe. The rbjeꢂoive is or emulaoe ohe sopess ꢂaused
when I/O -ins ape ꢂrnoaꢂoed by handling equi-meno
duping oeso and assembly. Of ꢂrupse, all -ins pequipe
ohis -proeꢂoirn, nro juso RꢁD485 in-uos and ruo-uos.
Reduced EMI and Reflections
The MAX13080E/MAX13081E/MAX13082E feaoupe
peduꢂed slewDpaoe dpiveps ohao minimize EMI and
peduꢂe pefleꢂoirns ꢂaused by im-pr-eply oepminaoed
ꢂables, allrwing epprpDfpee daoa opansmissirn u- or
250ꢀb-s. The MAX13083E/MAX13084E/MAX13085E
rffep highep dpivep ruo-uo slewDpaoe limios, allrwing
opansmio s-eeds u- or 500ꢀb-s. The MAX13089E wioh
ꢁRL = V
rp unꢂrnneꢂoed ape slewDpaoe limioed. Wioh
CC
ꢁRL unꢂrnneꢂoed, ohe MAX13089E epprpDfpee daoa
opansmissirn is u- or 250ꢀb-s. Wioh ꢁRL ꢂrnneꢂoed or
V
CC
, ohe daoa opansmio s-eeds u- or 500ꢀb-s.
______________________________________________________________________________________ ±7
+5.0V, 15ꢀV EꢁDꢂ-rotected, Failꢂꢁafe,
Hotꢂꢁwap, Rꢁꢂ485/Rꢁꢂ422 Transceivers
Lowꢂ-ower ꢁhutdown Mode (Except
MAX13081E/MAX13084E/MAX13087E)
LrwD-rwep shuodrwn mrde is inioiaoed by bpinging broh
RE high and SE lrw. In shuodrwn, ohe deviꢂes oy-iꢂally
dpaw rnly 2.8µA rf su--ly ꢂuppeno.
Driver Output -rotection
Twr meꢂhanisms -peveno exꢂessive ruo-uo ꢂuppeno and
-rwep dissi-aoirn ꢂaused by faulos rp by bus ꢂrnoenoirn.
The fipso, a frldbaꢂꢀ ꢂuppeno limio rn ohe ruo-uo soage,
-prvides immediaoe -proeꢂoirn againso shrpo ꢂipꢂuios rvep
ohe whrle ꢂrmmrnDmrde vrloage pange (see ohe Typical
Operating Characteristics). The seꢂrnd, a ohepmalDshuoD
drwn ꢂipꢂuio, frpꢂes ohe dpivep ruo-uos inor a highDim-edD
anꢂe soaoe if ohe die oem-epaoupe exꢂeeds +175°C (oy-).
RE and SE ꢂan be dpiven simuloanerusly; ohe deviꢂes
ape guapanoeed nro or enoep shuodrwn if RE is high and
SE is lrw frp less ohan 50ns. If ohe in-uos ape in ohis
soaoe frp ao leaso 700ns, ohe deviꢂes ape guapanoeed or
enoep shuodrwn.
Line Length
The RꢁD485/RꢁD422 soandapd ꢂrveps line lengohs u- or
4000fo. Frp line lengohs gpeaoep ohan 4000fo, use ohe
pe-eaoep a--liꢂaoirn shrwn in Figupe 11.
Enable oimes o
and o
(see ohe Switching
ZL
ZH
Characteristics seꢂoirn) assume ohe deviꢂes wepe nro in
a lrwD-rwep shuodrwn soaoe. Enable oimes o and
ZH(ꢁHSN)
o
assume ohe deviꢂes wepe in shuodrwn soaoe. Io
ZL(ꢁHSN)
Typical Applications
The MAX13082E/MAX13085E/MAX13088E/MAX13089E
opansꢂeiveps ape designed frp bidipeꢂoirnal daoa ꢂrmmuD
niꢂaoirns rn muloi-rino bus opansmissirn lines. Figupes
12 and 13 shrw oy-iꢂal neowrpꢀ a--liꢂaoirns ꢂipꢂuios.
oaꢀes dpiveps and peꢂeiveps lrngep or beꢂrme enabled
fprm lrwD-rwep shuodrwn mrde (o
, o
)
ZH(ꢁHSN) ZL(ꢁHSN)
ohan fprm dpivep/peꢂeivepDdisable mrde (o , o ).
ZH ZL
Tr minimize pefleꢂoirns, oepminaoe ohe line ao broh ends
in ios ꢂhapaꢂoepisoiꢂ im-edanꢂe, and ꢀee- soub lengohs
rff ohe main line as shrpo as -rssible. The slewDpaoeDlimD
ioed MAX13082E/MAX13085E and ohe owr mrdes rf ohe
MAX13089E ape mrpe orlepano rf im-epfeꢂo oepminaoirn.
MAX13080E/MAX13081E/MAX13083E/
MAX13084E/MAX13086E/MAX13087E/
MAX13089E (FULL DUPLEX)
A
RO
RE
DATA IN
R
B
120Ω
DE
Chip Information
TRANꢁIꢁTOR COUNT: 1228
Z
DI
DATA OUT
D
Y 120Ω
PROCEꢁꢁ: BiCMOꢁ
Figure 11. Line Repeater for MAX13080E/MAX13081E/
MAX13083E/MAX13084E/MAX13086E/MAX13087E/MAX13089E
in Full-Duplex Mode
120Ω
120Ω
DE
B
B
DI
D
D
DI
DE
A
B
A
B
A
A
RO
RE
RO
RE
R
R
R
R
D
D
MAX13082E
MAX13085E
MAX13088E
DE
DI
DI
RO
DE RO
RE
RE
MAX13089E (HALF DUPLEX)
Figure 12. Typical Half-Duplex RS-485 Network
±8 ______________________________________________________________________________________
+5.0V, 15ꢀV EꢁDꢂ-rotected, Failꢂꢁafe,
Hotꢂꢁwap, Rꢁꢂ485/Rꢁꢂ422 Transceivers
A
B
Y
120Ω
120Ω
R
RO
RE
DE
D
DI
Z
DE
RE
Z
B
120Ω
120Ω
D
DI
R
RO
Y
A
Y
Z
B
A
Y
Z
B
A
MAX13080E
MAX13081E
MAX13083E
MAX13084E
MAX13086E
MAX13087E
R
R
D
D
DI
DI
DE
DE
RE RO
RE RO
MAX31089E (FULL DUPLEX)
NOTE: RE AND DE ON MAX13080E/MAX13083E/MAX13086E/MAX13089E ONLY.
Figure 13. Typical Full-Duplex RS-485 Network
ꢁelector Guide
RECEIVER/
DRIVER
ENAꢂLE
ꢁALF/FULL
DUPLEX
DATA RATE
(ꢄbps)
SLEW-RATE LOW-POWER
TRANSCEIVERS
PINS
PART
LIꢄITED
SꢁUTDOWN
ON ꢂUS
MAX13080E
MAX13081E
MAX13082E
MAX13083E
MAX13084E
MAX13085E
MAX13086E
MAX13087E
MAX13088E
MAX13089E
Full
Full
0.250
0.250
0.250
0.5
Yes
Yes
Yes
Nr
Yes
Nr
256
256
256
256
256
256
256
256
256
256
14
8
Half
Yes
Yes
Yes
Nr
Yes
Yes
Nr
8
Full
Yes
14
8
Full
0.5
Yes
Half
0.5
Yes
Yes
Yes
Nr
Yes
Yes
Nr
8
Full
16
Nr
14
8
Full
16
Nr
Half
16
Nr
Yes
Yes
Yes
Yes
8
ꢁeleꢂoable
ꢁeleꢂoable
ꢁeleꢂoable
14
______________________________________________________________________________________ ±9
+5.0V, 15ꢀV EꢁDꢂ-rotected, Failꢂꢁafe,
Hotꢂꢁwap, Rꢁꢂ485/Rꢁꢂ422 Transceivers
-in Configurations and Typical Operating Circuits
V
CC
MAX13080E
MAX13083E
MAX13086E
DE
V
CC RE
0.1µF
14
4
N.C.
RO
V
CC
1
2
3
4
5
6
7
14
13
12
11
10
9
A
Y
9
5
Rt
D
RO
DI
DI
R
N.C.
A
R
10
12
Z
B
Y
RE
A
DE
B
2
Rt
D
RO
R
11
DI
Z
B
Z
D
1, 8, 13
Y
N.C.
GND
GND
GND
3
6, 7
N.C.
8
GND DE
RE
TYPICAL FULL-DUPLEX OPERATING CIRCUIT
DIP/SO
0.1µF
MAX13081E
MAX13084E
MAX13087E
V
CC
V
CC
1
V
A
B
Z
Y
CC
1
2
3
4
8
7
6
5
Y
A
5
6
8
R
3
2
Rt
RO
DI
D
RO
DI
DI
R
Z
B
Y
D
A
GND
Rt
D
RO
R
7
B
Z
DIP/SO
GND
4
GND
TYPICAL FULL-DUPLEX OPERATING CIRCUIT
MAX13082E
MAX13085E
MAX13088E
0.1µF
DE
1
2
3
4
8
DI
V
CC
RO
RE
DE
DI
RO
RE
DE
DI
V
B
A
1
2
3
4
8
R
R
D
CC
B
A
B
7
7
6
5
Rt
Rt
6
5
A
RO
D
D
R
GND
GND
RE
DIP/SO
TYPICAL HALF-DUPLEX OPERATING CIRCUIT
NOTE: PIN LABELS Y AND Z ON TIMING, TEST, AND WAVEFORMS DIAGRAMS.
SEE PINS A AND B WHEN DE IS HIGH.
20 ______________________________________________________________________________________
+5.0V, 15ꢀV EꢁDꢂ-rotected, Failꢂꢁafe,
Hotꢂꢁwap, Rꢁꢂ485/Rꢁꢂ422 Transceivers
-in Configurations and Typical Operating Circuits (continued)
V
CC
RE
MAX13089E
A
B
RO
TOP VIEW
H/F
RO
1
2
3
4
5
6
7
14
13
12
11
10
9
V
CC
RXP
RXP
A
RE
DE
B
MAX13089E
H/F
Z
DI
Z
TXP
SRL
GND
Y
TXP
8
Y
DIP/SO
DI
NOTE: SWITCH POSITIONS
INDICATED FOR H/F = GND.
GND DE SRL
______________________________________________________________________________________ 2±
+5.0V, 15ꢀV EꢁDꢂ-rotected, Failꢂꢁafe,
Hotꢂꢁwap, Rꢁꢂ485/Rꢁꢂ422 Transceivers
Ordering Information (continued)
PIN-
PACKAGE
PKG
CODE
PIN-
PACKAGE
PKG
CODE
PART
TEꢄP RANGE
PART
TEꢄP RANGE
8 PSIP
8 ꢁO
P8D2
ꢁ8D4
P8D2
ꢁ8D4
P8D2
ꢁ8D4
P8D2
ꢁ8D4
P8D2
ꢁ8D4
P8D2
ꢁ8D4
P14D3
ꢁ14D2
P14D3
ꢁ14D2
P14D3
ꢁ14D2
P8D2
ꢁ8D4
P8D2
ꢁ8D4
P8D2
ꢁ8D4
P8D2
ꢁ8D4
P8D2
ꢁ8D4
P8D2
ꢁ8D4
ꢄAX±308±ECPA
MAX13081ECꢁA
MAX13081EEPA
MAX13081EEꢁA
MAX13081EAPA
MAX13081EAꢁA
ꢄAX±3082ECPA
MAX13082ECꢁA
MAX13082EEPA
MAX13082EEꢁA
MAX13082EAPA
MAX13082EAꢁA
ꢄAX±3083ECPS
MAX13083ECꢁS
0°C or +70°C
0°C or +70°C
14 PSIP
14 ꢁO
14 PSIP
14 ꢁO
14 PSIP
14 ꢁO
8 PSIP
8 ꢁO
P14D3
ꢁ14D2
P14D3
ꢁ14D2
P14D3
ꢁ14D2
P8D2
ꢄAX±3086ECPS
0°C or +70°C
0°C or +70°C
MAX13086ECꢁS
8 PSIP
8 ꢁO
D40°C or +85°C
D40°C or +85°C
D40°C or +125°C
D40°C or +125°C
0°C or +70°C
MAX13086EEPS D40°C or +85°C
MAX13086EEꢁS D40°C or +85°C
MAX13086EAPS D40°C or +125°C
MAX13086EAꢁS D40°C or +125°C
8 PSIP
8 ꢁO
8 PSIP
8 ꢁO
ꢄAX±3087ECPA
MAX13087ECꢁA
MAX13087EEPA
MAX13087EEꢁA
0°C or +70°C
0°C or +70°C
0°C or +70°C
ꢁ8D4
8 PSIP
8 ꢁO
D40°C or +85°C
D40°C or +85°C
D40°C or +125°C
D40°C or +125°C
0°C or +70°C
8 PSIP
8 ꢁO
P8D2
D40°C or +85°C
D40°C or +85°C
ꢁ8D4
8 PSIP
8 ꢁO
8 PSIP
8 ꢁO
P8D2
MAX13087EAPA D40°C or +125°C
MAX13087EAꢁA D40°C or +125°C
ꢁ8D4
14 PSIP
14 ꢁO
14 PSIP
14 ꢁO
14 PSIP
14 ꢁO
8 PSIP
8 ꢁO
8 PSIP
8 ꢁO
P8D2
ꢄAX±3088ECPA
MAX13088ECꢁA
MAX13088EEPA
MAX13088EEꢁA
MAX13088EAPA
MAX13088EAꢁA
ꢄAX±3089ECPS
MAX13089ECꢁS
0°C or +70°C
0°C or +70°C
0°C or +70°C
ꢁ8D4
MAX13083EEPS D40°C or +85°C
MAX13083EEꢁS D40°C or +85°C
MAX13083EAPS D40°C or +125°C
MAX13083EAꢁS D40°C or +125°C
8 PSIP
8 ꢁO
P8D2
D40°C or +85°C
D40°C or +85°C
D40°C or +125°C
D40°C or +125°C
0°C or +70°C
ꢁ8D4
8 PSIP
8 ꢁO
P8D2
ꢁ8D4
ꢄAX±3084ECPA
MAX13084ECꢁA
MAX13084EEPA
MAX13084EEꢁA
MAX13084EAPA
MAX13084EAꢁA
ꢄAX±3085ECPA
MAX13085ECꢁA
MAX13085EEPA
MAX13085EEꢁA
MAX13085EAPA
MAX13085EAꢁA
0°C or +70°C
0°C or +70°C
14 PSIP
14 ꢁO
14 PSIP
14 ꢁO
14 PSIP
14 ꢁO
P14D3
ꢁ14D2
P14D3
ꢁ14D2
P14D3
ꢁ14D2
0°C or +70°C
8 PSIP
8 ꢁO
D40°C or +85°C
D40°C or +85°C
D40°C or +125°C
D40°C or +125°C
0°C or +70°C
MAX13089EEPS D40°C or +85°C
MAX13089EEꢁS D40°C or +85°C
MAX13089EAPS D40°C or +125°C
MAX13089EAꢁS D40°C or +125°C
8 PSIP
8 ꢁO
8 PSIP
8 ꢁO
0°C or +70°C
8 PSIP
8 ꢁO
D40°C or +85°C
D40°C or +85°C
D40°C or +125°C
D40°C or +125°C
8 PSIP
8 ꢁO
22 ______________________________________________________________________________________
+5.0V, 15ꢀV EꢁDꢂ-rotected, Failꢂꢁafe,
Hotꢂꢁwap, Rꢁꢂ485/Rꢁꢂ422 Transceivers
-acꢀage Information (continued)
(The -aꢂꢀage dpawing(s) in ohis daoa sheeo may nro pefleꢂo ohe mrso ꢂuppeno s-eꢂifiꢂaoirns. Frp ohe laoeso -aꢂꢀage ruoline infrpmaoirn,
gr or www.uaxiu-ic.cou/pacꢀages.)
______________________________________________________________________________________ 23
+5.0V, 15ꢀV EꢁDꢂ-rotected, Failꢂꢁafe,
Hotꢂꢁwap, Rꢁꢂ485/Rꢁꢂ422 Transceivers
-acꢀage Information (continued)
(The -aꢂꢀage dpawing(s) in ohis daoa sheeo may nro pefleꢂo ohe mrso ꢂuppeno s-eꢂifiꢂaoirns. Frp ohe laoeso -aꢂꢀage ruoline infrpmaoirn,
gr or www.uaxiu-ic.cou/pacꢀages.)
INCHES
MILLIMETERS
DIM
A
MIN
MAX
0.069
0.010
0.019
0.010
MIN
1.35
0.10
0.35
0.19
MAX
1.75
0.25
0.49
0.25
0.053
0.004
0.014
0.007
N
A1
B
C
e
0.050 BSC
1.27 BSC
E
0.150
0.228
0.016
0.157
0.244
0.050
3.80
5.80
0.40
4.00
6.20
1.27
E
H
H
L
VARIATIONS:
INCHES
1
MILLIMETERS
DIM
D
MIN
MAX
0.197
0.344
0.394
MIN
4.80
8.55
9.80
MAX
5.00
N
8
MS012
AA
TOP VIEW
0.189
0.337
0.386
D
8.75 14
10.00 16
AB
D
AC
D
C
A
B
0∞-8∞
e
A1
L
FRONT VIEW
SIDE VIEW
PROPRIETARY INFORMATION
TITLE:
PACKAGE OUTLINE, .150" SOIC
APPROVAL
DOCUMENT CONTROL NO.
REV.
1
21-0041
B
1
Maxim cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a Maxim product. No circuit patent licenses are
implied. Maxim reserves the right to change the circuitry and specifications without notice at any time.
Maxim Integrated -roducts, 120 ꢁan Gabriel Drive, ꢁunnyvale, CA 94086 408ꢂ737ꢂ7600 ____________________ 24
© 2005 Maxim Inoegpaoed Pprduꢂos
Ppinoed UꢁA
is a pegisoeped opademapꢀ rf Maxim Inoegpaoed Pprduꢂos, Inꢂ.
ENG LIS H • ? ? ? ? • ? ? ? • ? ? ?
WH AT' S N EW
PRO DU CT S
S OL UT IO NS
D ESIGN
A PPNOTES
SU PPORT
B U Y
CO MPA N Y
M EMB ERS
M a x i m > P r o d u c t s > I n t e r f a c e a n d I n t e r c o n n e c t
M A X 1 3 0 8 0 E , M A X 1 3 0 8 1 E , M A X 1 3 0 8 2 E , M A X 1 3 0 8 3 E ,
M A X 1 3 0 8 4 E , M A X 1 3 0 8 5 E , M A X 1 3 0 8 6 E , M A X 1 3 0 8 7 E ,
M A X 1 3 0 8 8 E , M A X 1 3 0 8 9 E
+ 5 . 0 V , 1 5 k V E S D - P r o t e c t e d , F a i l - S a f e , H o t - S w a p , R S - 4 8 5 / R S - 4 2 2 T r a n s c e i v e r s
Q
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f
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N
o
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e
s
:
1 . O t h e r o p t i o n s a n d l i n k s f o r p u r c h a s i n g p a r t s a r e l i s t e d a t : h t t p : / / w w w . m a x i m - i c . c o m / s a l e s .
2 . D i d n ' t F i n d W h a t Y o u N e e d ? A s k o u r a p p l i c a t i o n s e n g i n e e r s . E x p e r t a s s i s t a n c e i n f i n d i n g p a r t s , u s u a l l y w i t h i n o n e
b u s i n e s s d a y .
3 . P a r t n u m b e r s u f f i x e s : T o r T & R = t a p e a n d r e e l ; + = R o H S / l e a d - f r e e ; # = R o H S / l e a d - e x e m p t . M o r e : S e e F u l l D a t a
S h e e t o r P a r t N a m i n g C o n v e n t i o n s .
4
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.
D e v i c e s : 1 - 1 4 5 o f 1 4 5
M A X 1 3 0 8 0 E
F r e e
B uy
T e m p
R o H S/ L e a d - F r e e ?
M a t e r i a l s A n a l y s i s
P a c k a g e : TY PE PI NS F O OTPRI NT
Sa m p l e
D RA WI NG C OD E/ VA R *
M A X 1 3 0 8 0 E A P D
P D I P ; 1 4 p i n ; 1 6 0 m m
D w g : 2 1 - 0 0 4 3 D ( P D F )
- 4 0 C t o + 1 2 5 C R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
U s e p k g c o d e / v a r i a t i o n : P 1 4 - 3 *
M A X 1 3 0 8 0 E C P D
M A X 1 3 0 8 0 E E P D
P D I P ; 1 4 p i n ; 1 6 0 m m
D w g : 2 1 - 0 0 4 3 D ( P D F )
U s e p k g c o d e / v a r i a t i o n : P 1 4 - 3 *
0 C t o + 7 0 C
R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
P D I P ; 1 4 p i n ; 1 6 0 m m
D w g : 2 1 - 0 0 4 3 D ( P D F )
- 4 0 C t o + 8 5 C R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
U s e p k g c o d e / v a r i a t i o n : P 1 4 - 3 *
M A X 1 3 0 8 0 E C S D +
M A X 1 3 0 8 0 E C S D + T
M A X 1 3 0 8 0 E A S D - T
M A X 1 3 0 8 0 E A S D
M A X 1 3 0 8 0 E A S D + T
M A X 1 3 0 8 0 E A S D +
M A X 1 3 0 8 0 E C S D
M A X 1 3 0 8 0 E C S D - T
M A X 1 3 0 8 0 E E S D + T
S O I C ; 1 4 p i n ; 5 4 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 1 4 + 1 *
0 C t o + 7 0 C
0 C t o + 7 0 C
R o H S / L e a d - F r e e : L e a d F r e e
M a t e r i a l s A n a l y s i s
S O I C ; 1 4 p i n ; 5 4 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 1 4 + 1 *
R o H S / L e a d - F r e e : L e a d F r e e
M a t e r i a l s A n a l y s i s
S O I C ; 1 4 p i n ; 5 4 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 1 4 - 1 *
- 4 0 C t o + 1 2 5 C R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
S O I C ; 1 4 p i n ; 5 4 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 1 4 - 1 *
- 4 0 C t o + 1 2 5 C R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
S O I C ; 1 4 p i n ; 5 4 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 1 4 + 1 *
- 4 0 C t o + 1 2 5 C R o H S / L e a d - F r e e : L e a d F r e e
M a t e r i a l s A n a l y s i s
S O I C ; 1 4 p i n ; 5 4 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 1 4 + 1 *
- 4 0 C t o + 1 2 5 C R o H S / L e a d - F r e e : L e a d F r e e
M a t e r i a l s A n a l y s i s
S O I C ; 1 4 p i n ; 5 4 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 1 4 - 1 *
0 C t o + 7 0 C
0 C t o + 7 0 C
R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
S O I C ; 1 4 p i n ; 5 4 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 1 4 - 1 *
R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
S O I C ; 1 4 p i n ; 5 4 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
- 4 0 C t o + 8 5 C R o H S / L e a d - F r e e : L e a d F r e e
M a t e r i a l s A n a l y s i s
U
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p
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c
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v
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:
S
1
4
+
1
*
M A X 1 3 0 8 0 E E S D +
M A X 1 3 0 8 0 E E S D
M A X 1 3 0 8 0 E E S D - T
S O I C ; 1 4 p i n ; 5 4 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 1 4 + 1 *
- 4 0 C t o + 8 5 C R o H S / L e a d - F r e e : L e a d F r e e
M a t e r i a l s A n a l y s i s
S O I C ; 1 4 p i n ; 5 4 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 1 4 - 1 *
- 4 0 C t o + 8 5 C R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
S O I C ; 1 4 p i n ; 5 4 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
- 4 0 C t o + 8 5 C R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
U s e p k g c o d e / v a r i a t i o n : S 1 4 - 1 *
M A X 1 3 0 8 1 E
F r e e
B uy
T e m p
R o H S/ L e a d - F r e e ?
M a t e r i a l s A n a l y s i s
P a c k a g e : TY PE PI NS F O OTPRI NT
Sa m p l e
D RA WI NG C OD E/ VA R *
M A X 1 3 0 8 1 E A P A
- 4 0 C t o + 1 2 5 C R o H S / L e a d - F r e e : S e e d a t a s h e e t
M A X 1 3 0 8 1 E C P A
M A X 1 3 0 8 1 E E P A
P D I P ; 8 p i n ; 8 2 m m
D w g : 2 1 - 0 0 4 3 D ( P D F )
U s e p k g c o d e / v a r i a t i o n : P 8 - 2 *
0 C t o + 7 0 C
R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
P D I P ; 8 p i n ; 8 2 m m
D w g : 2 1 - 0 0 4 3 D ( P D F )
U s e p k g c o d e / v a r i a t i o n : P 8 - 2 *
- 4 0 C t o + 8 5 C R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
M A X 1 3 0 8 1 E E S A + T
M A X 1 3 0 8 1 E E S A +
M A X 1 3 0 8 1 E C S A + T
M A X 1 3 0 8 1 E C S A +
M A X 1 3 0 8 1 E A S A - T
M A X 1 3 0 8 1 E A S A
M A X 1 3 0 8 1 E C S A - T
M A X 1 3 0 8 1 E C S A
M A X 1 3 0 8 1 E E S A - T
M A X 1 3 0 8 1 E E S A
S O I C ; 8 p i n ; 3 1 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 8 + 4 *
- 4 0 C t o + 8 5 C R o H S / L e a d - F r e e : L e a d F r e e
M a t e r i a l s A n a l y s i s
S O I C ; 8 p i n ; 3 1 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 8 + 4 *
- 4 0 C t o + 8 5 C R o H S / L e a d - F r e e : L e a d F r e e
M a t e r i a l s A n a l y s i s
S O I C ; 8 p i n ; 3 1 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 8 + 4 *
0 C t o + 7 0 C
0 C t o + 7 0 C
R o H S / L e a d - F r e e : L e a d F r e e
M a t e r i a l s A n a l y s i s
S O I C ; 8 p i n ; 3 1 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 8 + 4 *
R o H S / L e a d - F r e e : L e a d F r e e
M a t e r i a l s A n a l y s i s
S O I C ; 8 p i n ; 3 1 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 8 - 4 *
- 4 0 C t o + 1 2 5 C R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
S O I C ; 8 p i n ; 3 1 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 8 - 4 *
- 4 0 C t o + 1 2 5 C R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
S O I C ; 8 p i n ; 3 1 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 8 - 4 *
0 C t o + 7 0 C
0 C t o + 7 0 C
R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
S O I C ; 8 p i n ; 3 1 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 8 - 4 *
R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
S O I C ; 8 p i n ; 3 1 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 8 - 4 *
- 4 0 C t o + 8 5 C R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
S O I C ; 8 p i n ; 3 1 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 8 - 4 *
- 4 0 C t o + 8 5 C R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
M A X 1 3 0 8 2 E
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M a t e r i a l s A n a l y s i s
P
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P D I P ; 8 p i n ; 8 2 m m
D w g : 2 1 - 0 0 4 3 D ( P D F )
U s e p k g c o d e / v a r i a t i o n : P 8 + 2 *
- 4 0 C t o + 8 5 C R o H S / L e a d - F r e e : L e a d F r e e
M a t e r i a l s A n a l y s i s
M A X 1 3 0 8 2 E A P A
M A X 1 3 0 8 2 E C P A
M A X 1 3 0 8 2 E C P A +
M A X 1 3 0 8 2 E E P A
P D I P ; 8 p i n ; 8 2 m m
D w g : 2 1 - 0 0 4 3 D ( P D F )
U s e p k g c o d e / v a r i a t i o n : P 8 - 2 *
- 4 0 C t o + 1 2 5 C R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
P D I P ; 8 p i n ; 8 2 m m
D w g : 2 1 - 0 0 4 3 D ( P D F )
U s e p k g c o d e / v a r i a t i o n : P 8 - 2 *
0 C t o + 7 0 C
0 C t o + 7 0 C
R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
P D I P ; 8 p i n ; 8 2 m m
D w g : 2 1 - 0 0 4 3 D ( P D F )
U s e p k g c o d e / v a r i a t i o n : P 8 + 2 *
R o H S / L e a d - F r e e : L e a d F r e e
M a t e r i a l s A n a l y s i s
P D I P ; 8 p i n ; 8 2 m m
D w g : 2 1 - 0 0 4 3 D ( P D F )
U s e p k g c o d e / v a r i a t i o n : P 8 - 2 *
- 4 0 C t o + 8 5 C R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
M A X 1 3 0 8 2 E A S A +
M A X 1 3 0 8 2 E A S A + T
M A X 1 3 0 8 2 E E S A + T
M A X 1 3 0 8 2 E E S A +
M A X 1 3 0 8 2 E A S A
S O I C ; 8 p i n ; 3 1 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 8 + 4 *
- 4 0 C t o + 1 2 5 C R o H S / L e a d - F r e e : L e a d F r e e
M a t e r i a l s A n a l y s i s
S O I C ; 8 p i n ; 3 1 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 8 + 4 *
- 4 0 C t o + 1 2 5 C R o H S / L e a d - F r e e : L e a d F r e e
M a t e r i a l s A n a l y s i s
S O I C ; 8 p i n ; 3 1 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 8 + 4 *
- 4 0 C t o + 8 5 C R o H S / L e a d - F r e e : L e a d F r e e
M a t e r i a l s A n a l y s i s
S O I C ; 8 p i n ; 3 1 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 8 + 4 *
- 4 0 C t o + 8 5 C R o H S / L e a d - F r e e : L e a d F r e e
M a t e r i a l s A n a l y s i s
S O I C ; 8 p i n ; 3 1 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 8 - 4 *
- 4 0 C t o + 1 2 5 C R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
M A X 1 3 0 8 2 E A S A - T
M A X 1 3 0 8 2 E C S A - T
M A X 1 3 0 8 2 E C S A
M A X 1 3 0 8 2 E C S A +
M A X 1 3 0 8 2 E C S A + T
M A X 1 3 0 8 2 E E S A - T
M A X 1 3 0 8 2 E E S A
S O I C ; 8 p i n ; 3 1 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 8 - 4 *
- 4 0 C t o + 1 2 5 C R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
S O I C ; 8 p i n ; 3 1 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 8 - 4 *
0 C t o + 7 0 C
0 C t o + 7 0 C
0 C t o + 7 0 C
0 C t o + 7 0 C
R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
S O I C ; 8 p i n ; 3 1 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 8 - 4 *
R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
S O I C ; 8 p i n ; 3 1 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 8 + 4 *
R o H S / L e a d - F r e e : L e a d F r e e
M a t e r i a l s A n a l y s i s
S O I C ; 8 p i n ; 3 1 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 8 + 4 *
R o H S / L e a d - F r e e : L e a d F r e e
M a t e r i a l s A n a l y s i s
S O I C ; 8 p i n ; 3 1 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 8 - 4 *
- 4 0 C t o + 8 5 C R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
S O I C ; 8 p i n ; 3 1 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 8 - 4 *
- 4 0 C t o + 8 5 C R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
M A X 1 3 0 8 3 E
F r e e
B uy
T e m p
R o H S/ L e a d - F r e e ?
P a c k a g e : TY PE PI NS F O OTPRI NT
Sa m p l e
M a t e r i a l s A n a l y s i s
D RA WI NG C OD E/ VA R *
M A X 1 3 0 8 3 E C P D +
P D I P ; 1 4 p i n ; 1 6 0 m m
D w g : 2 1 - 0 0 4 3 D ( P D F )
0 C t o + 7 0 C
R o H S / L e a d - F r e e : L e a d F r e e
M a t e r i a l s A n a l y s i s
U s e p k g c o d e / v a r i a t i o n : P 1 4 + 3 *
M A X 1 3 0 8 3 E E P D +
M A X 1 3 0 8 3 E A P D
M A X 1 3 0 8 3 E C P D
M A X 1 3 0 8 3 E E P D
M A X 1 3 0 8 3 E E S D + T
M A X 1 3 0 8 3 E E S D +
M A X 1 3 0 8 3 E A S D - T
M A X 1 3 0 8 3 E A S D
M A X 1 3 0 8 3 E C S D - T
P D I P ; 1 4 p i n ; 1 6 0 m m
D w g : 2 1 - 0 0 4 3 D ( P D F )
U s e p k g c o d e / v a r i a t i o n : P 1 4 + 3 *
- 4 0 C t o + 8 5 C R o H S / L e a d - F r e e : L e a d F r e e
M a t e r i a l s A n a l y s i s
P D I P ; 1 4 p i n ; 1 6 0 m m
D w g : 2 1 - 0 0 4 3 D ( P D F )
U s e p k g c o d e / v a r i a t i o n : P 1 4 - 3 *
- 4 0 C t o + 1 2 5 C R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
P D I P ; 1 4 p i n ; 1 6 0 m m
D w g : 2 1 - 0 0 4 3 D ( P D F )
U s e p k g c o d e / v a r i a t i o n : P 1 4 - 3 *
0 C t o + 7 0 C
R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
P D I P ; 1 4 p i n ; 1 6 0 m m
D w g : 2 1 - 0 0 4 3 D ( P D F )
U s e p k g c o d e / v a r i a t i o n : P 1 4 - 3 *
- 4 0 C t o + 8 5 C R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
S O I C ; 1 4 p i n ; 5 4 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 1 4 + 1 *
- 4 0 C t o + 8 5 C R o H S / L e a d - F r e e : L e a d F r e e
M a t e r i a l s A n a l y s i s
S O I C ; 1 4 p i n ; 5 4 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 1 4 + 1 *
- 4 0 C t o + 8 5 C R o H S / L e a d - F r e e : L e a d F r e e
M a t e r i a l s A n a l y s i s
S O I C ; 1 4 p i n ; 5 4 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 1 4 - 1 *
- 4 0 C t o + 1 2 5 C R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
S O I C ; 1 4 p i n ; 5 4 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 1 4 - 1 *
- 4 0 C t o + 1 2 5 C R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
S O I C ; 1 4 p i n ; 5 4 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
0
C
t
o
+
7
0
C
R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
U s e p k g c o d e / v a r i a t i o n : S 1 4 - 1 *
M A X 1 3 0 8 3 E C S D
M A X 1 3 0 8 3 E E S D
M A X 1 3 0 8 3 E E S D - T
S O I C ; 1 4 p i n ; 5 4 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 1 4 - 1 *
0 C t o + 7 0 C
R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
S O I C ; 1 4 p i n ; 5 4 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 1 4 - 1 *
- 4 0 C t o + 8 5 C R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
S O I C ; 1 4 p i n ; 5 4 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
- 4 0 C t o + 8 5 C R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
U s e p k g c o d e / v a r i a t i o n : S 1 4 - 1 *
M A X 1 3 0 8 4 E
F r e e
B uy
T e m p
R o H S/ L e a d - F r e e ?
M a t e r i a l s A n a l y s i s
P a c k a g e : TY PE PI NS F O OTPRI NT
Sa m p l e
D RA WI NG C OD E/ VA R *
M A X 1 3 0 8 4 E A P A
- 4 0 C t o + 1 2 5 C R o H S / L e a d - F r e e : S e e d a t a s h e e t
M A X 1 3 0 8 4 E C P A
M A X 1 3 0 8 4 E E P A
M A X 1 3 0 8 4 E A S A
M A X 1 3 0 8 4 E A S A - T
M A X 1 3 0 8 4 E C S A
M A X 1 3 0 8 4 E C S A - T
M A X 1 3 0 8 4 E E S A - T
M A X 1 3 0 8 4 E E S A
P D I P ; 8 p i n ; 8 2 m m
D w g : 2 1 - 0 0 4 3 D ( P D F )
U s e p k g c o d e / v a r i a t i o n : P 8 - 2 *
0 C t o + 7 0 C
R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
P D I P ; 8 p i n ; 8 2 m m
D w g : 2 1 - 0 0 4 3 D ( P D F )
U s e p k g c o d e / v a r i a t i o n : P 8 - 2 *
- 4 0 C t o + 8 5 C R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
S O I C ; 8 p i n ; 3 1 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 8 - 4 *
- 4 0 C t o + 1 2 5 C R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
S O I C ; 8 p i n ; 3 1 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 8 - 4 *
- 4 0 C t o + 1 2 5 C R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
S O I C ; 8 p i n ; 3 1 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 8 - 4 *
0 C t o + 7 0 C
0 C t o + 7 0 C
R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
S O I C ; 8 p i n ; 3 1 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 8 - 4 *
R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
S O I C ; 8 p i n ; 3 1 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 8 - 4 *
- 4 0 C t o + 8 5 C R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
S O I C ; 8 p i n ; 3 1 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 8 - 4 *
- 4 0 C t o + 8 5 C R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
M
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u
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M a t e r i a l s A n a l y s i s
P
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T
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P
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P
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- 4 0 C t o + 1 2 5 C R o H S / L e a d - F r e e : S e e d a t a s h e e t
M A X 1 3 0 8 5 E C P A
M A X 1 3 0 8 5 E E P A +
M A X 1 3 0 8 5 E E P A
M A X 1 3 0 8 5 E A S A + T
M A X 1 3 0 8 5 E A S A - T
M A X 1 3 0 8 5 E A S A +
M A X 1 3 0 8 5 E A S A
M A X 1 3 0 8 5 E C S A
P D I P ; 8 p i n ; 8 2 m m
D w g : 2 1 - 0 0 4 3 D ( P D F )
U s e p k g c o d e / v a r i a t i o n : P 8 - 2 *
0
C
t
o
+
7
0
C
R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
P D I P ; 8 p i n ; 8 2 m m
D w g : 2 1 - 0 0 4 3 D ( P D F )
U s e p k g c o d e / v a r i a t i o n : P 8 + 2 *
- 4 0 C t o + 8 5 C R o H S / L e a d - F r e e : L e a d F r e e
M a t e r i a l s A n a l y s i s
P D I P ; 8 p i n ; 8 2 m m
D w g : 2 1 - 0 0 4 3 D ( P D F )
U s e p k g c o d e / v a r i a t i o n : P 8 - 2 *
- 4 0 C t o + 8 5 C R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
S O I C ; 8 p i n ; 3 1 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 8 + 4 *
- 4 0 C t o + 1 2 5 C R o H S / L e a d - F r e e : L e a d F r e e
M a t e r i a l s A n a l y s i s
S O I C ; 8 p i n ; 3 1 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 8 - 4 *
- 4 0 C t o + 1 2 5 C R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
S O I C ; 8 p i n ; 3 1 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 8 + 4 *
- 4 0 C t o + 1 2 5 C R o H S / L e a d - F r e e : L e a d F r e e
M a t e r i a l s A n a l y s i s
S O I C ; 8 p i n ; 3 1 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 8 - 4 *
- 4 0 C t o + 1 2 5 C R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
S O I C ; 8 p i n ; 3 1 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 8 - 4 *
0
C
t
o
+
7
0
C
R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
M A X 1 3 0 8 5 E C S A + T
M A X 1 3 0 8 5 E C S A - T
M A X 1 3 0 8 5 E C S A +
M A X 1 3 0 8 5 E E S A
S O I C ; 8 p i n ; 3 1 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 8 + 4 *
0 C t o + 7 0 C
0 C t o + 7 0 C
0 C t o + 7 0 C
R o H S / L e a d - F r e e : L e a d F r e e
M a t e r i a l s A n a l y s i s
S O I C ; 8 p i n ; 3 1 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 8 - 4 *
R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
S O I C ; 8 p i n ; 3 1 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 8 + 4 *
R o H S / L e a d - F r e e : L e a d F r e e
M a t e r i a l s A n a l y s i s
S O I C ; 8 p i n ; 3 1 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 8 - 4 *
- 4 0 C t o + 8 5 C R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
M A X 1 3 0 8 5 E E S A - T
M A X 1 3 0 8 5 E E S A + T
M A X 1 3 0 8 5 E E S A +
S O I C ; 8 p i n ; 3 1 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 8 - 4 *
- 4 0 C t o + 8 5 C R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
S O I C ; 8 p i n ; 3 1 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 8 + 4 *
- 4 0 C t o + 8 5 C R o H S / L e a d - F r e e : L e a d F r e e
M a t e r i a l s A n a l y s i s
S O I C ; 8 p i n ; 3 1 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 8 + 4 *
- 4 0 C t o + 8 5 C R o H S / L e a d - F r e e : L e a d F r e e
M a t e r i a l s A n a l y s i s
M A X 1 3 0 8 6 E
F r e e
B uy
T e m p
R o H S/ L e a d - F r e e ?
M a t e r i a l s A n a l y s i s
P a c k a g e : TY PE PI NS F O OTPRI NT
Sa m p l e
D RA WI NG C OD E/ VA R *
M A X 1 3 0 8 6 E C S D +
0 C t o + 7 0 C
R o H S / L e a d - F r e e : S e e d a t a s h e e t
M A X 1 3 0 8 6 E C P D +
M A X 1 3 0 8 6 E E P D +
M A X 1 3 0 8 6 E A P D
M A X 1 3 0 8 6 E C P D
M A X 1 3 0 8 6 E E P D
P D I P ; 1 4 p i n ; 1 6 0 m m
D w g : 2 1 - 0 0 4 3 D ( P D F )
U s e p k g c o d e / v a r i a t i o n : P 1 4 + 3 *
0 C t o + 7 0 C
R o H S / L e a d - F r e e : L e a d F r e e
M a t e r i a l s A n a l y s i s
P D I P ; 1 4 p i n ; 1 6 0 m m
D w g : 2 1 - 0 0 4 3 D ( P D F )
U s e p k g c o d e / v a r i a t i o n : P 1 4 + 3 *
- 4 0 C t o + 8 5 C R o H S / L e a d - F r e e : L e a d F r e e
M a t e r i a l s A n a l y s i s
P D I P ; 1 4 p i n ; 1 6 0 m m
D w g : 2 1 - 0 0 4 3 D ( P D F )
U s e p k g c o d e / v a r i a t i o n : P 1 4 - 3 *
- 4 0 C t o + 1 2 5 C R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
P D I P ; 1 4 p i n ; 1 6 0 m m
D w g : 2 1 - 0 0 4 3 D ( P D F )
U s e p k g c o d e / v a r i a t i o n : P 1 4 - 3 *
0 C t o + 7 0 C
R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
P D I P ; 1 4 p i n ; 1 6 0 m m
D w g : 2 1 - 0 0 4 3 D ( P D F )
- 4 0 C t o + 8 5 C R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
U s e p k g c o d e / v a r i a t i o n : P 1 4 - 3 *
M A X 1 3 0 8 6 E A S D + T
M A X 1 3 0 8 6 E A S D +
M A X 1 3 0 8 6 E C S D + T
M A X 1 3 0 8 6 E E S D + T
M A X 1 3 0 8 6 E E S D +
M A X 1 3 0 8 6 E A S D - T
M A X 1 3 0 8 6 E A S D
M A X 1 3 0 8 6 E C S D - T
M A X 1 3 0 8 6 E C S D
S O I C ; 1 4 p i n ; 5 4 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 1 4 + 1 *
- 4 0 C t o + 1 2 5 C R o H S / L e a d - F r e e : L e a d F r e e
M a t e r i a l s A n a l y s i s
S O I C ; 1 4 p i n ; 5 4 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 1 4 + 1 *
- 4 0 C t o + 1 2 5 C R o H S / L e a d - F r e e : L e a d F r e e
M a t e r i a l s A n a l y s i s
0
C
t
o
+
7
0
C
R
o
H
S
/
L
e
a
d
-
F
r
e
e
:
S
e
e
d
a
t
a
s
h
e
e
t
S O I C ; 1 4 p i n ; 5 4 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 1 4 + 1 *
- 4 0 C t o + 8 5 C R o H S / L e a d - F r e e : L e a d F r e e
M a t e r i a l s A n a l y s i s
S O I C ; 1 4 p i n ; 5 4 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 1 4 + 1 *
- 4 0 C t o + 8 5 C R o H S / L e a d - F r e e : L e a d F r e e
M a t e r i a l s A n a l y s i s
S O I C ; 1 4 p i n ; 5 4 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 1 4 - 1 *
- 4 0 C t o + 1 2 5 C R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
S O I C ; 1 4 p i n ; 5 4 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 1 4 - 1 *
- 4 0 C t o + 1 2 5 C R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
S O I C ; 1 4 p i n ; 5 4 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 1 4 - 1 *
0 C t o + 7 0 C
0 C t o + 7 0 C
R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
S O I C ; 1 4 p i n ; 5 4 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
U s e p k g c o d e / v a r i a t i o n : S 1 4 - 1 *
M A X 1 3 0 8 6 E E S D
S O I C ; 1 4 p i n ; 5 4 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
- 4 0 C t o + 8 5 C R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
U s e p k g c o d e / v a r i a t i o n : S 1 4 - 1 *
M A X 1 3 0 8 6 E E S D - T
S O I C ; 1 4 p i n ; 5 4 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
- 4 0 C t o + 8 5 C R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
U s e p k g c o d e / v a r i a t i o n : S 1 4 - 1 *
M A X 1 3 0 8 7 E
F r e e
B uy
T e m p
R o H S/ L e a d - F r e e ?
P a c k a g e : TY PE PI NS F O OTPRI NT
Sa m p l e
M a t e r i a l s A n a l y s i s
D
R
A
W
I
N
G
C
O
D
E
/
V
A
R
*
M
A
X
1
3
0
8
7
E
C
P
A
+
0 C t o + 7 0 C
R o H S / L e a d - F r e e : S e e d a t a s h e e t
M A X 1 3 0 8 7 E C S A +
M A X 1 3 0 8 7 E A P A
M A X 1 3 0 8 7 E C P A
M A X 1 3 0 8 7 E E P A
M A X 1 3 0 8 7 E C S A + T
M A X 1 3 0 8 7 E E S A + T
M A X 1 3 0 8 7 E E S A +
M A X 1 3 0 8 7 E A S A
M A X 1 3 0 8 7 E A S A - T
M A X 1 3 0 8 7 E C S A - T
M A X 1 3 0 8 7 E C S A
M A X 1 3 0 8 7 E E S A
M A X 1 3 0 8 7 E E S A - T
0 C t o + 7 0 C
R o H S / L e a d - F r e e : S e e d a t a s h e e t
P D I P ; 8 p i n ; 8 2 m m
D w g : 2 1 - 0 0 4 3 D ( P D F )
U s e p k g c o d e / v a r i a t i o n : P 8 - 2 *
- 4 0 C t o + 1 2 5 C R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
P D I P ; 8 p i n ; 8 2 m m
D w g : 2 1 - 0 0 4 3 D ( P D F )
U s e p k g c o d e / v a r i a t i o n : P 8 - 2 *
0 C t o + 7 0 C
R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
P D I P ; 8 p i n ; 8 2 m m
D w g : 2 1 - 0 0 4 3 D ( P D F )
U s e p k g c o d e / v a r i a t i o n : P 8 - 2 *
- 4 0 C t o + 8 5 C R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
0 C t o + 7 0 C
R o H S / L e a d - F r e e : S e e d a t a s h e e t
S O I C ; 8 p i n ; 3 1 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 8 + 4 *
- 4 0 C t o + 8 5 C R o H S / L e a d - F r e e : L e a d F r e e
M a t e r i a l s A n a l y s i s
S O I C ; 8 p i n ; 3 1 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 8 + 4 *
- 4 0 C t o + 8 5 C R o H S / L e a d - F r e e : L e a d F r e e
M a t e r i a l s A n a l y s i s
S O I C ; 8 p i n ; 3 1 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 8 - 4 *
- 4 0 C t o + 1 2 5 C R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
S O I C ; 8 p i n ; 3 1 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 8 - 4 *
- 4 0 C t o + 1 2 5 C R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
S O I C ; 8 p i n ; 3 1 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 8 - 4 *
0 C t o + 7 0 C
0 C t o + 7 0 C
R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
S O I C ; 8 p i n ; 3 1 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 8 - 4 *
R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
S O I C ; 8 p i n ; 3 1 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 8 - 4 *
- 4 0 C t o + 8 5 C R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
S O I C ; 8 p i n ; 3 1 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 8 - 4 *
- 4 0 C t o + 8 5 C R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
M A X 1 3 0 8 8 E
F r e e
B uy
T e m p
R o H S/ L e a d - F r e e ?
M a t e r i a l s A n a l y s i s
P a c k a g e : TY PE PI NS F O OTPRI NT
S
a
m
p
l
e
D
R
A
W
I
N
G
C
O
D
E
/
V
A
R
*
M
A
X
1
3
0
8
8
E
A
P
A
P D I P ; 8 p i n ; 8 2 m m
D w g : 2 1 - 0 0 4 3 D ( P D F )
U s e p k g c o d e / v a r i a t i o n : P 8 - 2 *
- 4 0 C t o + 1 2 5 C R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
M A X 1 3 0 8 8 E C P A
M A X 1 3 0 8 8 E E P A
M A X 1 3 0 8 8 E A S A + T
M A X 1 3 0 8 8 E A S A +
P D I P ; 8 p i n ; 8 2 m m
D w g : 2 1 - 0 0 4 3 D ( P D F )
U s e p k g c o d e / v a r i a t i o n : P 8 - 2 *
0
C
t
o
+
7
0
C
R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
P D I P ; 8 p i n ; 8 2 m m
D w g : 2 1 - 0 0 4 3 D ( P D F )
U s e p k g c o d e / v a r i a t i o n : P 8 - 2 *
- 4 0 C t o + 8 5 C R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
S O I C ; 8 p i n ; 3 1 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 8 + 4 *
- 4 0 C t o + 1 2 5 C R o H S / L e a d - F r e e : L e a d F r e e
M a t e r i a l s A n a l y s i s
S O I C ; 8 p i n ; 3 1 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 8 + 4 *
- 4 0 C t o + 1 2 5 C R o H S / L e a d - F r e e : L e a d F r e e
M a t e r i a l s A n a l y s i s
M A X 1 3 0 8 8 E C S A + T
M A X 1 3 0 8 8 E C S A +
M A X 1 3 0 8 8 E A S A
M A X 1 3 0 8 8 E A S A - T
M A X 1 3 0 8 8 E C S A
M A X 1 3 0 8 8 E C S A - T
M A X 1 3 0 8 8 E E S A
S O I C ; 8 p i n ; 3 1 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 8 + 4 *
0 C t o + 7 0 C
0 C t o + 7 0 C
R o H S / L e a d - F r e e : L e a d F r e e
M a t e r i a l s A n a l y s i s
S O I C ; 8 p i n ; 3 1 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 8 + 4 *
R o H S / L e a d - F r e e : L e a d F r e e
M a t e r i a l s A n a l y s i s
S O I C ; 8 p i n ; 3 1 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 8 - 4 *
- 4 0 C t o + 1 2 5 C R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
S O I C ; 8 p i n ; 3 1 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 8 - 4 *
- 4 0 C t o + 1 2 5 C R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
S O I C ; 8 p i n ; 3 1 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 8 - 4 *
0 C t o + 7 0 C
0 C t o + 7 0 C
R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
S O I C ; 8 p i n ; 3 1 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 8 - 4 *
R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
S O I C ; 8 p i n ; 3 1 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 8 - 4 *
- 4 0 C t o + 8 5 C R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
M A X 1 3 0 8 8 E E S A - T
M A X 1 3 0 8 8 E E S A + T
M A X 1 3 0 8 8 E E S A +
S O I C ; 8 p i n ; 3 1 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 8 - 4 *
- 4 0 C t o + 8 5 C R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
S O I C ; 8 p i n ; 3 1 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 8 + 4 *
- 4 0 C t o + 8 5 C R o H S / L e a d - F r e e : L e a d F r e e
M a t e r i a l s A n a l y s i s
S O I C ; 8 p i n ; 3 1 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 8 + 4 *
- 4 0 C t o + 8 5 C R o H S / L e a d - F r e e : L e a d F r e e
M a t e r i a l s A n a l y s i s
M A X 1 3 0 8 9 E
F r e e
B uy
T e m p
R o H S/ L e a d - F r e e ?
M a t e r i a l s A n a l y s i s
P a c k a g e : TY PE PI NS F O OTPRI NT
Sa m p l e
D RA WI NG C OD E/ VA R *
M A X 1 3 0 8 9 E E P D +
P D I P ; 1 4 p i n ; 1 6 0 m m
D w g : 2 1 - 0 0 4 3 D ( P D F )
- 4 0 C t o + 8 5 C R o H S / L e a d - F r e e : L e a d F r e e
M a t e r i a l s A n a l y s i s
U s e p k g c o d e / v a r i a t i o n : P 1 4 + 3 *
M A X 1 3 0 8 9 E A P D
M A X 1 3 0 8 9 E C P D
M A X 1 3 0 8 9 E E P D
P D I P ; 1 4 p i n ; 1 6 0 m m
D w g : 2 1 - 0 0 4 3 D ( P D F )
U s e p k g c o d e / v a r i a t i o n : P 1 4 - 3 *
- 4 0 C t o + 1 2 5 C R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
P D I P ; 1 4 p i n ; 1 6 0 m m
D w g : 2 1 - 0 0 4 3 D ( P D F )
U s e p k g c o d e / v a r i a t i o n : P 1 4 - 3 *
0 C t o + 7 0 C
R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
P D I P ; 1 4 p i n ; 1 6 0 m m
D w g : 2 1 - 0 0 4 3 D ( P D F )
- 4 0 C t o + 8 5 C R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
U s e p k g c o d e / v a r i a t i o n : P 1 4 - 3 *
M A X 1 3 0 8 9 E C S D + T
M A X 1 3 0 8 9 E C S D +
M A X 1 3 0 8 9 E E S D +
M A X 1 3 0 8 9 E E S D + T
M A X 1 3 0 8 9 E A S D
M A X 1 3 0 8 9 E A S D - T
M A X 1 3 0 8 9 E A S D + T
M A X 1 3 0 8 9 E A S D +
S O I C ; 1 4 p i n ; 5 4 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 1 4 + 1 *
0 C t o + 7 0 C
0 C t o + 7 0 C
R o H S / L e a d - F r e e : L e a d F r e e
M a t e r i a l s A n a l y s i s
S O I C ; 1 4 p i n ; 5 4 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 1 4 + 1 *
R o H S / L e a d - F r e e : L e a d F r e e
M a t e r i a l s A n a l y s i s
S O I C ; 1 4 p i n ; 5 4 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 1 4 + 1 *
- 4 0 C t o + 8 5 C R o H S / L e a d - F r e e : L e a d F r e e
M a t e r i a l s A n a l y s i s
S O I C ; 1 4 p i n ; 5 4 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 1 4 + 1 *
- 4 0 C t o + 8 5 C R o H S / L e a d - F r e e : L e a d F r e e
M a t e r i a l s A n a l y s i s
S O I C ; 1 4 p i n ; 5 4 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 1 4 - 1 *
- 4 0 C t o + 1 2 5 C R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
S O I C ; 1 4 p i n ; 5 4 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 1 4 - 1 *
- 4 0 C t o + 1 2 5 C R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
S O I C ; 1 4 p i n ; 5 4 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 1 4 + 1 *
- 4 0 C t o + 1 2 5 C R o H S / L e a d - F r e e : L e a d F r e e
M a t e r i a l s A n a l y s i s
S O I C ; 1 4 p i n ; 5 4 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
- 4 0 C t o + 1 2 5 C R o H S / L e a d - F r e e : L e a d F r e e
M a t e r i a l s A n a l y s i s
U s e p k g c o d e / v a r i a t i o n : S 1 4 + 1 *
M A X 1 3 0 8 9 E C S D
M A X 1 3 0 8 9 E C S D - T
M A X 1 3 0 8 9 E E S D - T
M A X 1 3 0 8 9 E E S D
S O I C ; 1 4 p i n ; 5 4 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 1 4 - 1 *
0 C t o + 7 0 C
0 C t o + 7 0 C
R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
S O I C ; 1 4 p i n ; 5 4 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 1 4 - 1 *
R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
S O I C ; 1 4 p i n ; 5 4 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
U s e p k g c o d e / v a r i a t i o n : S 1 4 - 1 *
- 4 0 C t o + 8 5 C R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
S O I C ; 1 4 p i n ; 5 4 m m
D w g : 2 1 - 0 0 4 1 B ( P D F )
- 4 0 C t o + 8 5 C R o H S / L e a d - F r e e : N o
M a t e r i a l s A n a l y s i s
U s e p k g c o d e / v a r i a t i o n : S 1 4 - 1 *
D i d n ' t F i n d W h a t Y o u N e e d ?
N e x t D a y P r o d u c t S e l e c t i o n A s s i s t a n c e f r o m A p p l i c a t i o n s E n g i n e e r s
P a r a m e t r i c S e a r c h
A p p l i c a t i o n s H e l p
Q u i c k V i e w
T e c h n i c a l D o c u m e n t s
O r d e r i n g I n f o
M o r e I n f o r m a t i o n
D e s c r i p t i o n
D a t a S h e e t
A p p l i c a t i o n N o t e s
D e s i g n G u i d e s
E n g i n e e r i n g J o u r n a l s
R e l i a b i l i t y R e p o r t s
S o f t w a r e / M o d e l s
E v a l u a t i o n K i t s
P r i c e a n d A v a i l a b i l i t y
S a m p l e s
B u y O n l i n e
P a c k a g e I n f o r m a t i o n
L e a d - F r e e I n f o r m a t i o n
R e l a t e d P r o d u c t s
N o t e s a n d C o m m e n t s
E v a l u a t i o n K i t s
K e y F e a t u r e s
A p p l i c a t i o n s / U s e s
K e y S p e c i f i c a t i o n s
D i a g r a m
D o c u m e n t R e f . : 1 9 - 3 5 9 0 ; R e v 1 ; 2 0 0 5 - 0 8 - 1 8
T h i s p a g e l a s t m o d i f i e d : 2 0 0 6 - 0 1 - 2 0
C O N T A C T U S : S E N D U S A N E M A I L
C o p y r i g h t 2 0 0 7 b y M a x i m I n t e g r a t e d P r o d u c t s , D a l l a s S e m i c o n d u c t o r • L e g a l N o t i c e s • P r i v a c y P o l i c y
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MAX13082EEPA
Line Transceiver, 1 Func, 1 Driver, 1 Rcvr, BICMOS, PDIP8, 0.300 INCH, PLASTIC, MS-001AB, DIP-8
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