ETC C40D

4 Micron CMOS Process Family
Features
Process parameters
• Double Poly / Double Metal
Process Parameters
4µm
4µm
10 volts
15 volts
Metal I pitch (width/space)
4/4
4 /4
µm
Metal II pitch (width/space)
3/4
3/4
µm
Poly pitch (width/space)
4/4
4 /4
µm
Contact
4x4
4x4
µm
Via
3x3
3x3
µm
Gate geometry
4.0
4.0
µm
P-well junction depth
5.7
7.0
µm
N+ junction depth
1.5
1.4
µm
P+ junction depth
0.90
0.95
µm
Gate oxide thickness
640
800
Å
Inter poly oxide thick.
800
625
Å
• 8 µm Poly and Metal Pitch
Units
• 10 Volts Maximum Operating Voltage
• 15 Volts High Voltage Option
• Isolated Vertical PNP Bipolar Module
Description
Dalsa Semiconductor’s 4µm process is a double poly/double
metal CMOS process with an operating voltage range of 5 to 10
volts. In addition, a high voltage option is also available in
which a special drain structure allows the maximum operating
voltage to be increased to 18 volts. No compromises are made
with packing density since all high voltage gates are drawn at
4µm. Also, an Isolated Vertical PNP bipolar module with good
gain characteristics and high BVceo can be implemented on
both options.
MOSFET Electrical parameters
Electrical
Parameters
Vt (50x4µm)
4 MICRON - 10 volts
4 MICRON - 15 volts
N Channel
min.
typ.
max.
P Channel
min.
typ.
max.
N Channel
min.
typ.
max.
P Channel
min.
typ.
max.
0.4
0.4
0.6
0.8
0.7
0.9
0.7
0.9
0.9
1.2
1.1
1.4
Units
Conditions
V
saturation
10V : Vds=Vgs= 3v
15V : Vds=Vgs=7.5v
Ids (50x4µm)
32
17
94
37
µA/µm
Body factor
0.8
0.4
1.3
0.5
√v
22
V
10V : Ids=1µA
15V : Ids=20nA
80
mV/dec.
Vds=0.1v
22
V
Ids = 14 µA
2.6
µm
L drawn = 4µm
Bvdss
15
Subthres. slope
Field threshold
>20
15
114
12
L effective
www.dalsasemi.com
34
1.6
>20
20
90
12
25
2.6
27
20
108
18
24
1.9
For More Information:
DALSA Semiconductor Sales
18 Boulevard de l’Aéroport
Bromont, Québec, Canada
J2L 1S7
18
Tel :
Fax
email:
(450) 534-2321 ext. 1448
(800) 718-9701
(450) 534-3201
[email protected]
4 Micron CMOS Process Family (cont’d)
Resistances (Ω /sq.)
4 µm - 10 volts
FIG 1: I-V Characteristics for a 50x4µm N-MOSFET
(4µm High Voltage Process)
4 µm - 15 volts
Vgs = 18V
Pwell
Pfield in Pwell
typ.
max.
min.
5200
typ.
max.
3300
1000
2000
3000
1000
2000
3000
N+
6
9
14
30
39
50
P+
70
94
110
75
90
125
Poly gate
14
21
26
16
20
28
Poly capacitor
30
43
80
20
28
50
Ids (mA)
Vgs = 15V
min.
Vgs = 12V
Vgs = 9V
Vgs = 6V
Vgs = 3V
Metal I
0.038
0.038
Metal II
0.038
0.038
Vds (volts)
FIG 2 : I-V Characteristics for a 50x4µm P-MOSFET
(4µm High Voltage Process)
Vgs = -18V
Vgs = -15V
2
Capacitances (fF/µm )
Ids (mA)
4 µm - 10 volts
Vgs = -12V
4 µm - 15 volts
Vgs = -9V
min.
typ.
max.
min.
typ.
max.
Vgs = -6V
Inter-poly
0.35
0.43
0.55
0.45
0.55
0.65
Vgs = -3V
Gate oxide
0.51
0.54
0.58
0.41
0.43
0.46
Vds (volts)
N+ Junction
0.33
0.29
P+ Junction
0.14
0.10
FIG 3: Substrate Current per Gate Width for a 50x4µm
N-MOSFET (4µm High Voltage Process)
Bipolar characteristics
4 µm - 10 volts
min.
NPN
vertical
Gain*
Bvceo (V)
PNP
vertical
*
typ.
max.
4 µm - 15 volts
min.
580
70
90
Gain*
-
-
Bvceo (V)
-
-
typ.
max.
Isub (µA/µm)
Vds = 18V
Vds = 16V
Vds = 14V
240
70
90
-
50
120
-
20
30
Vgs (volts)
200
FIG 4 :Vertical PNP bipolar transistor
Ib = -10mA
Test condition : Vce = 5 volts
-2.5
Ic (mA)
-2.0
-1.5
Ib = -5mA
-1.0
Note: These values are for guidance only. Many of them can be
adjusted to suit customer requirements. For full process
specifications contact a Dalsa Semiconductor sales office or representative.
-0.5
Ib = -1mA
0
0
-20
Vce (volts)
-40