ONSEMI AND8009/D

AND8009/D
ECLinPS Plus
SPICE Modeling Kit
Prepared by:
Senad Lomigora, Paul Shockman
ON Semiconductor Broadband Applications Engineering
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APPLICATION NOTE
Schematic Information
The kit contains representative input and output
schematics, netlists, and waveform used for the ECLinPS
Plus devices. This application note will be modified as new
devices are added. The subcircuit models such as the input
or output buffer, package, input ESD and output ESD may
be interconnected as subcircuits to simulate specific device
characteristics as shown in Figure 1 below. The block
diagram in Figure 2 illustrates a typical situation which can
be modeled using the information in this kit.
Objective
The objective of this kit is to provide customers with
enough circuit schematic and SPICE parameter information
to allow them to perform system level interconnect
modeling for the current devices of the ECLinPS Plus logic
line, ON Semiconductor’s high performance ECL family.
The kit is not intended to provide information necessary
to perform circuit level modeling on ECLinPS Plus
devices. With packaged gate delays of 160 ps and output
edge rates as low as 80 ps, this family defines the
state−of−the−artin ECL logic. The ECLinPS Plus line is one
of ON Semiconductor’s high performance ECL/PECL
family of products.
Subcircuit Interconnects for Input Pins
Board Pin
Connection
Package
Model
Input ESD
Model
Input Buffer
Model
Subcircuit Interconnects for Output Pins
Output Buffer
Model
Output ESD
Model
Package
Model
Board Pin
Connection
Figure 1. Input and Output Pins Interconnects
50 6” Line
50 3” Line
50 10” Line
Typical Input
Typical Output
50 Typical Input
Typical Input
VTT
Figure 2. Typical Application for I/O SPICE Modeling Kit
 Semiconductor Components Industries, LLC, 2004
February, 2004 − Rev. 10
1
Publication Order Number:
AND8009/D
AND8009/D
There are four terminals on all transistor models: Emitter,
Base, Collector, and Substrate (biased to VEE). It should be
noted that circuits can be used single ended by replacing INB
with VBB. Table 1 describes the nomenclature used in the
schematics and netlists.
To simulate a different operating modes all levels, except
VCS, are adjusted with respect to VCC. The VCS is adjusted
with respect to VEE (VEE + 1.1 V 50 mV)
Table 2. Buffer Model Figures
Buffer Model
Table 1. Schematics and Netlist Nomenclature
Parameter
Function Description
Figure Number
Page Number
TYPICAL INBUF
3
6
OBUF01
4
7
OBUF02
5
8
OBUF03
6
9
OBUF04
7
10
OBUF05
8
11
VCC
3.3 V FOR LVPECL OR (0 V) FOR LVECL
OBUF06
9
12
VCCO
1.6 V − 2.0 V HSTL Output Positive Supply
OBUF07
10
13
VCS
Internal Reference Voltage (VEE + 1.1 V
50 mV)
OBUF08
11
14
VHSTL
HSTL Internal Constant Voltage Source
OBUF09
12
15
VEE
−3.3 V FOR LVECL OR (0 V) FOR LVPECL
OBUF10
13
16
GND
0V
OBUF11
14
17
VTT
VCC − 2 V TERMINATION PLANE
IN
TRUE INPUT TO CKT
INB or IN
INVERTED INPUT TO CKT
Q
TRUE OUTPUT OF CKT
QB or Q
INVERTED OUTPUT OF CKT
Package
A case model for various package types is included to
improve the accuracy of the system model (see Table 3). The
.package model represents the parasitics as they are
measured on a pin. The package pin model should be placed
on each device input pin connecting to an input model, all
device output pins connecting to an output model, VCC, and
VEE. A model can be used at the VEE pin: but is not necessary
since the current in the VEE pin is a constant. Explanations
of the Package Model modes can be found in Appendix A.
Input Buffer
The Typical Input Buffer schematic (see Table 2) and
netlist are representing structure currently in use on the
existing devices in this family. The schematics require the
addition of ESD models (Figure 15) and package models
(see Table 3) to more accurate model behavior. The internal
input pulldown resistor is shown in the ESD network,
Figure 15. Some devices may also display an internal pullup
resistor to VCC. Refer to specific device data sheet pinout
and logic diagram. It is unnecessary to include an ESD or
package model for the VBB pins of the models because VBB
is intended as an internal node for most applications. If VBB
is modeled as an external node it is usually bypassed because
it is a constant voltage, and adding ESD and Package
parameters provide no additional benefit.
Table 3. Available Packages
Package Model
Output Buffer
The output buffer schematics (see Table 2) and netlists
may contain the temperature compensation structure, so
only the ESD and package models need to be added. Any
input or output that is driving or being driven by an off chip
signal should include the ESD and package models. The
output buffers show differential inputs and outputs. When
simulating a single ended output, the termination or load
resistor, package model, ESD structure and output emitter
follower, of the unused output, should not be eliminated to
simplify the system model. The output buffer listing can be
seen in Table 2.
Page Number
8−Lead SO
22
8−Lead TSSOP
24
20−Lead SO
26
20−Lead TSSOP
32
24−Lead QFN
37
32−Lead TQFP
43
52−Lead LQFP
51
64−Lead LQFP
58
EP16 Buffer Model
The EP16 interconnect has been completely modeled to
provide a working schematic and output waveforms as
examples of the ECLinPS Plus line. The typical input buffer
may be driven with the output buffer, OBUF01. (See Figure
17, simplified EP16 SPICE model and Figure 18 typical
output waveform.)
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2
AND8009/D
SPICE Netlists
The netlists are organized as a group of subcircuits. In
each subcircuit model netlist, the model name is followed by
a list of external node interconnects.
reference voltages (VBB, VCS, VHSTL, etc.) should be driven
with ideal constant voltage sources.
The schematics and SPICE parameters will provide a
typical output waveshape, which can be seen in Figures 18,
19, and 20. Simple adjustments can be made to the models
allowing output characteristics to simulate conditions at or
near the corners of the data book specifications. Consistent
cross−point voltages need to be maintained.
Temperature Compensation Network for 100EP
The output netlists include temperature compensation
network circuitry for 100EP style output buffers. The circuit
components of the temperature compensation networks are
shown in Figure 18. For simulating 10EP style outputs these
components should either be deleted or commented out of
the subcircuit netlists. Subcircuit models such as the Input
or Output Buffer, Package, Input ESD and Output ESD
should connect to supplies through hierarchical, passed
parameters such as VCC, VEE, etc., for proper simulation and
not separately attached to independent power supplies.
• To adjust rise and fall times:
Produce the desired rise and fall times output slew rates
by adjusting collector load resistors to change the gates
tail current. The VCS voltage will affect the tail current
in the output differential, which will interact with the
load resistor and collector resistor to determine tr and tf
at the output.
• To adjust the VOH:
SPICE Parameter Information
In addition to the schematics and netlists is a listing of the
SPICE parameters for the transistors referenced in the
schematics and netlists. These parameters represent a typical
device of a given transistor. Varying the typical parameters
will affect the DC and AC performance of the structures; but
for the type of modeling intended by this note, the actual delay
times are not necessary and are not modeled, as a result
variation of the device parameters are meaningless. The
performance levels are more easily varied by other methods
and will be discussed in the next section. The resistors
referenced in the schematics are polysilicon and have no
parasitic capacitance in the real circuit and none is required
in the model. The schematics display the only devices needed
in the SPICE netlists.
Adjust the VOH and VOL level by the same amount by
varying VCC. The output levels will follow changes in
VCC at a 1:1 ratio.
• To adjust the VOL only:
Adjust the VOL level independently of the VOH level by
increasing or decreasing the collector load resistance.
Note that the VOH level will also change slightly due to
a IBASER drop across the collector load resistor. VOL can
be changed by varying the VCS supply, and therefore the
gate current through the current source resistor.
Summary
The information included in this kit provides adequate
information to run a SPICE level system interconnect
simulation. Device input or output models are presented in
Table 4. For EP and LVEP series devices not listed in Table 4,
consult www.onsemi.com (Tech Support).
Modeling Information
The bias drivers for the devices are not detailed since their
circuitry would result in a substantial increase of model
complexity and simulation time. Instead, these internal
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3
AND8009/D
Table 4. ECLinPS Plus Input/Output Selection Table
Device
Package A
Package B
Input ESD
Input Buffer
Output Buffer
Output ESD
EP01
8−lead SO
8−lead TSSOP
IN_ESD
TYPICAL INBUF
OBUF01
OUT_ESD
EP05
8−lead SO
8−lead TSSOP
IN_ESD
TYPICAL INBUF
OBUF01
OUT_ESD
EP08
8−lead SO
8−lead TSSOP
IN_ESD
TYPICAL INBUF
OBUF01
OUT_ESD
EP11
8−lead SO
8−lead TSSOP
IN_ESD
TYPICAL INBUF
OBUF01
OUT_ESD
EP14
20−lead TSSOP
N/A
IN_ESD
TYPICAL INBUF
OBUF03
OUT_ESD
EP16
8−lead SO
8−lead TSSOP
IN_ESD
TYPICAL INBUF
OBUF01
OUT_ESD
EP17
20−lead SO
20−lead TSSOP
IN_ESD
TYPICAL INBUF
OBUF06
OUT_ESD
EP29
20−lead TSSOP
N/A
IN_ESD
TYPICAL INBUF
OBUF03
OUT_ESD
EP31
8−lead SO
8−lead TSSOP
IN_ESD
TYPICAL INBUF
OBUF01
OUT_ESD
EP32
8−lead SO
8−lead TSSOP
IN_ESD
TYPICAL INBUF
OBUF01
OUT_ESD
EP33
8−lead SO
8−lead TSSOP
IN_ESD
TYPICAL INBUF
OBUF02
OUT_ESD
EP35
8−lead SO
8−lead TSSOP
IN_ESD
TYPICAL INBUF
OBUF01
OUT_ESD
EP40
20−lead TSSOP
N/A
IN_ESD
TYPICAL INBUF
OBUF09
OUT_ESD
EP51
8−lead SO
8−lead TSSOP
IN_ESD
TYPICAL INBUF
OBUF01
OUT_ESD
EP52
8−lead SO
8−lead TSSOP
IN_ESD
TYPICAL INBUF
OBUF01
OUT_ESD
EP56
20−lead SO
20−lead TSSOP
IN_ESD
TYPICAL INBUF
OBUF04
OUT_ESD
EP57
20−lead TSSOP
N/A
IN_ESD
TYPICAL INBUF
OBUF04
OUT_ESD
EP58
8−lead SO
8−lead TSSOP
IN_ESD
TYPICAL INBUF
OBUF01
OUT_ESD
EP89
8−lead SO
8−lead TSSOP
IN_ESD
TYPICAL INBUF
OBUF05
OUT_ESD
EP90
20−lead TSSOP
N/A
IN_ESD
TYPICAL INBUF
OBUF04
OUT_ESD
EP016
32−lead LQFP
N/A
IN_ESD
TYPICAL INBUF
OBUF02
OUT_ESD
EP016A
32−lead LQFP
N/A
IN_ESD
TYPICAL INBUF
OBUF02
OUT_ESD
EP101
32−lead LQFP
N/A
IN_ESD
TYPICAL INBUF
OBUF06
OUT_ESD
EP105
32−lead LQFP
N/A
IN_ESD
TYPICAL INBUF
OBUF06
OUT_ESD
EP116
32−lead LQFP
N/A
IN_ESD
TYPICAL INBUF
OBUF06
OUT_ESD
EP131
32−lead LQFP
N/A
IN_ESD
TYPICAL INBUF
OBUF02
OUT_ESD
EP139
20−lead SO
20−lead TSSOP
IN_ESD
TYPICAL INBUF
OBUF07
OUT_ESD
EP140
8−lead SO
N/A
IN_ESD
TYPICAL INBUF
OBUF09
OUT_ESD
EP142
32−lead LQFP
N/A
IN_ESD
TYPICAL INBUF
OBUF03
OUT_ESD
EP195
32−lead LQFP
N/A
IN_ESD
TYPICAL INBUF
OBUF04
OUT_ESD
EP196
32−lead LQFP
N/A
IN_ESD
TYPICAL INBUF
OBUF04
OUT_ESD
EP210S
32−lead LQFP
N/A
IN_ESD
TYPICAL INBUF
OBUF10
OUT_ESD
EP223
64−lead LQFP
N/A
IN_ESD
TYPICAL INBUF
OBUF11
OUT_ESD
EP445
32−lead LQFP
N/A
IN_ESD
TYPICAL INBUF
OBUF03
OUT_ESD
EP446
32−lead LQFP
N/A
IN_ESD
TYPICAL INBUF
OBUF04
OUT_ESD
EP451
32−lead LQFP
N/A
IN_ESD
TYPICAL INBUF
OBUF03
OUT_ESD
EP809
32−lead LQFP
N/A
IN_ESD
TYPICAL INBUF
OBUF11
OUT_ESD
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4
AND8009/D
Table 4. ECLinPS Plus Input/Output Selection Table (continued)
LVEP11
8−lead SO
8−lead TSSOP
IN_ESD
TYPICAL INBUF
OBUF08
OUT_ESD
LVEP14
20−lead TSSOP
N/A
IN_ESD
TYPICAL INBUF
OBUF03
OUT_ESD
LVEP16
8−lead SO
8−lead TSSOP
IN_ESD
TYPICAL INBUF
OBUF08
OUT_ESD
LVEP17
20−lead TSSOP
24−lead QFN
IN_ESD
TYPICAL INBUF
OBUF03
OUT_ESD
LVEP34
16−lead SO*
16−lead TSSOP*
IN_ESD
TYPICAL INBUF
OBUF03
OUT_ESD
LVEP56
20−lead TSSOP
24−lead QFN
IN_ESD
TYPICAL INBUF
OBUF01
OUT_ESD
LVEP111
32−lead LQFP
N/A
IN_ESD
TYPICAL INBUF
OBUF03
OUT_ESD
LVEP210
32−lead LQFP
N/A
IN_ESD
TYPICAL INBUF
OBUF03
OUT_ESD
LVEP221
52−lead LQFP
N/A
IN_ESD
TYPICAL INBUF
OBUF03
OUT_ESD
LVEP222
52−lead LQFP
N/A
IN_ESD
TYPICAL INBUF
OBUF03
OUT_ESD
LVEP224
64−lead LQFP
N/A
IN_ESD
TYPICAL INBUF
OBUF03
OUT_ESD
*For package model, please consult manufacturer at www.onsemi.com (Tech Support).
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AND8009/D
Netlists and Schematics
0 Vdc
+
−
VCC
0
R1
125
1
R2
125
R3
125
Q7 Q8
Q9
Q10
Q15 Q16
Q17
Q18
TNA TNA
TNA
TNA
TNA TNA
TNA
TNA
3
IN
0
4
−1.33 Vdc
−
Q1
+
Q2
IN
INB
−
Q4
8
5
TNA
+
Q3
10
TNA TNA TNA
Q11 Q12
Q13
Q14
Q19 Q20
Q21
Q22
TNA TNA
TNA
7
R5
67
TNA
TNA TNA
TNA
9
R6
67
TNA
INB
0 VCS
V1 = −1.7 V
+ V2
V2 = −0.95 V
−
TD = 1 n
−2.1 Vdc
VCS
TR = 0.15 n
TF = 0.15 n
VEE
PW = 1 n
+ V1
PER = 6 n
VEE
−3.3 Vdc −
6
R4
125
Figure 3. Typical INBUF
.SUBCKT TYPICAL INBUF IN INB VCS VEE
Q_Q1
3 IN 5 TNA
Q_Q2
3 IN 5 TNA
Q_Q3
4 INB 5 TNA
Q_Q4
4 INB 5 TNA
Q_Q5
5 VCS 6 TNA
Q_Q6
5 VCS 6 TNA
Q_Q7
1 3 8 TNA
Q_Q8
1 3 8 TNA
Q_Q9
1 3 8 TNA
Q_Q10
1 3 8 TNA
Q_Q11
8 VCS 7 TNA
Q_Q12
8 VCS 7 TNA
Q_Q13
8 VCS 7 TNA
Q_Q14
8 VCS 7 TNA
Q_Q15
1 4 10 TNA
Q_Q16
1 4 10 TNA
Q_Q17
1 4 10 TNA
Q_Q18
1 4 10 TNA
Q_Q19
10 VCS 9 TNA
Q_Q20
10 VCS 9 TNA
Q_Q21
10 VCS 9 TNA
Q_Q22
10 VCS 9 TNA
R_R1
2 1 125
R_R2
3 2 125
R_R3
4 2 125
R_R4
VEE 6 125
R_R5
VEE 7 67
R_R6
VEE 9 67
V_V1
VEE 0 −3.3Vdc
V_V2
VCS 0 −2.1Vdc
V_IN
IN 0 −1.33Vdc
V_VCC
1 0 0Vdc
V_INB
INB 0
+PULSE −1.7V −0.95V 1n 0.15n 0.15n 1n 6n
.END TYPICAL INBUF
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AND8009/D
TC Network
for 100EP
VCC
R1
120
IN
Q1
TNB
Q2
TND
−
Q11
TNC
3
283 2
+
R2
120
TNA
TNA
Q3
TND
Q10
TNC
Q4
TND
Q5
TND
Q6
TNB
INB
Q
IN
QB
+
V1 = −0.95
V2 = −1.5
TD = 1 n
TR = 0.165 n
TF = 0.165 n
PW = 0.585 n
PER = 1.5 n
−
1
Q7
TND
0
Q8
TND
+
Q9
TNB
−
+
V1 = −1.5
V2 = −0.95
TD = 1 n
TR = 0.165 n
TF = 0.165 n
PW = 0.585 n
PER = 1.5 n
−2.22 Vdc
−
VCS
R3
28
0
+
−3.3 Vdc
−
INB
VEE
5
4
R4
50
0
R5
50
VTT
+
−2 Vdc
−
VTT
0
0
Termination
Figure 4. OBUF01
.SUBCKT OBUF01 IN INB VCS VCC VEE VTT
Q_Q1
2 IN 1 TNB
Q_Q2
2 IN 1 TND
Q_Q3
2 IN 1 TND
Q_Q4
3 INB 1 TND
Q_Q5
3 INB 1 TND
Q_Q6
3 INB 1 TNB
Q_Q7
1 VCS 10 TND
Q_Q8
1 VCS 10 TND
Q_Q9
1 VCS 10 TNB
Q_Q10
VCC 2 5 TNC
Q_Q11
VCC 3 4 TNC
R_R1
2 VCC 120
R_R2
3 VCC 120
R_R3
VEE 10 28
R_R4
VTT 4 50
R_R5
VTT 5 50
V_IN
IN 0
+PULSE −0.95 −1.5 1n 0.165n 0.165n 0.585n 1.5n
V_INB
INB 0
+PULSE −1.5 −0.95 1n 0.165n 0.165n 0.585n 1.5n
V_VCC
VCC 0 0Vdc
V_VEE
VEE 0 −3.3Vdc
V_VTT
VTT 0 −2Vdc
V_VCS
VCS 0 −2.22Vdc
.END OBUF01
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7
VCC
0 Vdc
0
AND8009/D
TC Network
for 100EP
VCC
VCC +
−
R1
240
R2
240
TNA
Q4
TNC
0 Vdc
0
3
283 2
TNA
Q3
TNC
QB
IN
V1 = −0.95
V2 = −1.55
TD = 1 n
TR = 0.158 n
TF = 0.196 n
PW = 0.573 n
PER = 1.5 n
Q1
TNB
INB
Q2
TNB
Q
4
1
R4
50
VTT
IN
+
R5
50
5
−
INB
0
V1 = −1.55
V2 = −0.95
TD = 1 n
TR = 0.158 n
TF = 0.196 n
PW = 0.573 n
PER = 1.5 n
+
Q5
TNB
+
−
−
0
VTT
−2 Vdc
6
R3
56
+
+ VEE
−3.3 Vdc
− VEE
0
Figure 5. OBUF02
.SUBCKT OBUF02 IN INB VCC VCS VEE VTT
Q_Q1
2 IN 5 TNB
Q_Q2
3 INB 5 TNB
Q_Q3
VCC 2 4 TNC
Q_Q4
VCC 3 1 TNC
Q_Q5
5 VCS 6 TNB
R_R1
2 VCC 240
R_R2
3 VCC 240
R_R3
VEE 6 56
R_R4
VTT 4 50
R_R5
VTT 1 50
V_IN
IN 0
+PULSE −0.95 −1.55 1n 0.158n 0.196n 0.573n 1.5n
V_INB
INB 0
+PULSE −1.55 −0.95 1n 0.158n 0.196n 0.573n 1.5n
V_VCC
VCC 0 0Vdc
V_VEE
VEE 0 −3.3Vdc
V_VTT
VTT 0 −2Vdc
V_VCS
VCS 0 −2.2Vdc
.END OBUF02
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0
−2.2 Vdc
−
VCS
0
Termination
AND8009/D
TC Network
for 100EP
VCC
VCC
+
R1
245
R2
245
TNA
0 Vdc −
0
2
Q4
TNC
3
283 TNA
Q3
TNC
QB
IN
V1 = −0.95
V2 = −1.5
TD = 1 n
TR = 0.195 n
TF = 0.195 n
PW = 0.555 n
PER = 1.5 n
+
Q1
TNB
INB
Q2
TNB
1
Q
4
6
R4
50
R5
50
IN
VTT
−
+
0
V1 = −1.5
V2 = −0.95
TD = 1 n
TR = 0.195 n
TF = 0.195 n
PW = 0.555 n
PER = 1.5 n
INB
+
Q5
TNB
VTT
−2 Vdc
−
−
5
R3
69
0
+
+
−
VEE
VCS
0
−3.3 Vdc
−
0
−2.17 Vdc
VEE
0
Figure 6. OBUF03
.SUBCKT OBUF03 IN INB VCC VCS VEE VTT
Q_Q1
2 IN 1 TNB
Q_Q2
3 INB 1 TNB
Q_Q3
VCC 2 4 TNC
Q_Q4
VCC 3 6 TNC
Q_Q5
1 VCS 5 TNB
R_R1
2 VCC 245
R_R2
3 VCC 245
R_R3
VEE 5 69
R_R4
VTT 4 50
R_R5
VTT 6 50
V_IN
IN 0
+PULSE −0.95 −1.5 1n 0.195n 0.195n 0.555n 1.5n
V_INB
INB 0
+PULSE −1.5 −0.95 1n 0.195n 0.195n 0.555n 1.5n
V_VCC
VCC 0 0Vdc
V_VEE
VEE 0 −3.3Vdc
V_VTT
VTT 0 −2Vdc
V_VCS
VCS 0 −2.17Vdc
.END OBUF03
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Termination
AND8009/D
TC Network
for 100EP
VCC
VCC
+
R1
180
0 Vdc
−
0
IN
V1 = −0.95
V2 = −1.55
TD = 1 n
TR = 0.165 n
TF = 0.165 n
PW = 0.585 n
PER = 1.5 n
+
Q1
TNB
Q11
TNC
2
283 1
Q2
TND
R2
180
TNA
TNA
Q3
TND
Q10
TNC
Q4
TND
Q5
TND
Q6
TNB
INB
Q
QB
IN
5
−
0
+
−2.29 Vdc
−
Q7
TND
Q8
TND
Q9
TNB
+
V1 = −1.55
V2 = −0.95
TD = 1 n
TR = 0.165 n
TF = 0.165 n
PW = 0.585 n
PER = 1.5 n
6
VCS
R3
30
0
+
−3.3 Vdc
−
INB
−
3
4
R4
50
0
R5
50
VTT
+
−2 Vdc
VTT
−
VEE
0
0
Termination
Figure 7. OBUF04
.SUBCKT OBUF04 IN INB VCS VCC VEE VTT
Q_Q1
1 IN 5 TNB
Q_Q2
1 IN 5 TND
Q_Q3
1 IN 5 TND
Q_Q4
2 INB 5 TND
Q_Q5
2 INB 5 TND
Q_Q6
2 INB 5 TNB
Q_Q7
5 VCS 6 TND
Q_Q8
5 VCS 6 TND
Q_Q9
5 VCS 6 TNB
Q_Q10
VCC 1 4 TNC
Q_Q11
VCC 2 3 TNC
R_R1
1 VCC 180
R_R2
2 VCC 180
R_R3
VEE 6 20
R_R4
VTT 3 50
R_R5
VTT 4 50
V_IN
IN 0
+PULSE −0.95 −1.55 1n 0.165n 0.165n 0.585n 1.5n
V_INB
INB 0
+PULSE −1.55 −0.95 1n 0.165n 0.165n 0.585n 1.5n
V_VCC
VCC 0 0Vdc
V_VEE
VEE 0 −3.3Vdc
V_VTT
VTT 0 −2Vdc
V_VCS
VCS 0 −2.29Vdc
.END OBUF04
http://onsemi.com
10
AND8009/D
TC Network
for 100EP
VCC
VCC
+
R1
250
0 Vdc
R2
250
TNA
−
0
1
Q13
TNC
2
283 TNA
Q14
TNC
IN
INB
Q1
TNB
V1 = −0.95
V2 = −1.5
TD = 1 n
TR = 0.165 n
TF = 0.165 n
PW = 0.585 n
PER = 1.5 n
+
Q2
TND
Q3
TND
Q4
TND
Q5
TND
Q6
TNB
Q
QB
IN
−
+
5
0
Q7
TND
Q8
TND
Q9
TND
Q10
TNB
Q11
TNB
Q12
TNB
+
−
+
−3.3 Vdc
−
VEE
0
Figure 8. OBUF05
.SUBCKT OBUF05 IN INB VCS VCC VTT VEE
Q_Q1
1 IN 5 TNB
Q_Q2
1 IN 5 TND
Q_Q3
1 IN 5 TND
Q_Q4
2 INB 5 TND
Q_Q5
2 INB 5 TND
Q_Q6
2 INB 5 TNB
Q_Q7
5 VCS 6 TND
Q_Q8
5 VCS 6 TND
Q_Q9
5 VCS 6 TND
Q_Q10
5 VCS 6 TNB
Q_Q11
5 VCS 6 TNB
Q_Q12
5 VCS 6 TNB
Q_Q13
VCC 2 3 TNC
Q_Q14
VCC 1 4 TNC
R_R1
1 VCC 285
R_R2
2 VCC 285
R_R3
VEE 6 38
R_R4
VTT 3 50
R_R5
VTT 4 50
V_IN
IN 0 −1.33Vdc
+PULSE −0.95 −1.5 1n 0.165n 0.165n 0.585n 1.5n
V_INB
INB 0
+PULSE −1.5 −0.95 1n 0.165n 0.165n 0.585n 1.5n
V_VEE
VEE 0 −3.3Vdc
V_VCC
VCC 0 0Vdc
V_VTT
VTT 0 −3Vdc
V_VCS
VCS 0 −2.25Vdc
.END OBUF05
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11
3
4
R4
50
V1 = −1.5
V2 = −0.95
TD = 1 n
TR = 0.165 n
TF = 0.165 n
PW = 0.585 n
PER = 1.5 n
R3
36
0
−
0
6
−2.25 Vdc
VCS
INB
R5
50
VTT
+
−3 Vdc
−
VTT
0
Termination
AND8009/D
TC Network
for 100EP
VCC
VCC
+
R1
177
0 Vdc
R2
177
TNA
−
1
IN
+
V1 = −0.95
V2 = −1.5
TD = 1 n
TR = 0.165 n
TF = 0.165 n
PW = 0.585 n
PER = 1.5 n
Q1
TNB
Q7
TNC
2
283 0
TNA
Q8
TNC
Q2
TND
Q3
TND
IN
Q4
TNB
INB
Q
QB
6
−
Q5
TND
0
+
Q6
TNB
−
+
−2.25 Vdc
INB
VCS
R3
37.5
0
+
−3.3 Vdc
−
VEE
0
0
V1 = −1.5
V2 = −0.95
TD = 1 n
TR = 0.165 n
TF = 0.165 n
PW = 0.585 n
PER = 1.5 n
Figure 9. OBUF06
.SUBCKT OBUF06 IN INB VCC VCS VEE VTT
Q_Q1
1 IN 6 TNB
Q_Q2
1 IN 6 TND
Q_Q3
2 INB 6 TND
Q_Q4
2 INB 6 TNB
Q_Q5
6 VCS 5 TND
Q_Q6
6 VCS 5 TNB
Q_Q7
VCC 2 3 TNC
Q_Q8
VCC 1 4 TNC
R_R1
1 VCC 177
R_R2
2 VCC 177
R_R3
VEE 5 37.5
R_R4
VTT 3 50
R_R5
VTT 4 50
V_IN
IN 0
+PULSE −0.95 −1.5 1n 0.165n 0.165n 0.585n 1.5n
V_INB
INB 0
+PULSE −1.5 −0.95 1n 0.165n 0.165n 0.585n 1.5n
V_VEE
VEE 0 −3.3Vdc
V_VCC
VCC 0 0Vdc
V_VTT
VTT 0 −2Vdc
V_VCS
VCS 0 −2.25Vdc
.END OBUF06
http://onsemi.com
12
4
R4
50
5
−
3
R5
50
VTT
+
−2 Vdc
VTT
−
0
Termination
AND8009/D
TC Network
for 100EP
1
VCC
+
R1
245
0 Vdc −
0
IN
6
R2
245
TNA
283 2
Q4
TNC
11
TNA
Q1
Q3
TNC
Q2
TNB
TNB
3
QB
IN
V1 = −0.95
V2 = −1.5
TD = 1 n
TR = 0.195 n
TF = 0.195 n
PW = 0.555 n
PER = 1.5 n
+
INB
10
−
0
INB
−
0
R4
50
13
R3
55
+
+
−3.3 Vdc
−
7
8
9
Q5
TNB
V1 = −1.5
V2 = −0.95
TD = 1 n
TR = 0.195 n
TF = 0.195 n
PW = 0.555 n
PER = 1.5 n
Q
R5
50
4
+
5
+
−2.22 Vdc
−
VEE
VCS
−2 Vdc
VTT
−
0
0
0
Termination
Figure 10. OBUF07
.SUBCKT OBUF07
Q_Q1
2 6 3 TNB
Q_Q2
11 10 3 TNB
Q_Q3
1 2 8 TNC
Q_Q4
1 11 7 TNC
Q_Q5
3 9 13 TNB
R_R1
2 1 245
R_R2
11 1 245
R_R3
5 13 55
R_R4
4 8 50
R_R5
4 7 50
V_IN
6 0
+PULSE −0.95 −1.5 1n 0.195n 0.195n 0.555n 1.5n
V_INB
10 0
+PULSE −1.5 −0.95 1n 0.195n 0.195n 0.555n 1.5n
V_VEE
5 0 −3.3Vdc
V_VCC
1 0 0Vdc
V_VTT
4 0 −2Vdc
V_VCS
9 0 −2.22Vdc
.END OBUF07
http://onsemi.com
13
AND8009/D
TC Network
for 100EP
VCC
VCC
0 Vdc
+
R1
175
R2
175
TNA
−
0
IN
+
283 1
Q1
TNB
Q2
TND
Q11
TNC
2
TNA
Q3
TND
Q10
TNC
Q4
TND
Q5
TND
Q6 INB
TNB
Q
QB
INB
V1 = −0.95
−
V2 = − 1.5
TD = 1 n
TR = 0.195 n
0
TF = 0.195 n
PW = 0.555 n
PER = 1.5 n
5
Q7
TND
+
−2.36
Vdc −
Q8
TND
Q9
TNB
+
INB
−
V1 = −1.5
V2 = − 0.95
TD = 1 n
TR = 0.195 n
TF = 0.195 n
PW = 0.555 n
PER = 1.5 n
6
VCS
R3
17
0
+
−3.3 Vdc
−
VEE
0
3
4
R4
50
0
R5
50
VTT
+
−2 Vdc
−
V2
0
Termination
Figure 11. OBUF08
.SUBCKT OBUF08 IN INB VCC VCS VEE VTT
Q_Q1
1 IN 5 TNB
Q_Q2
1 IN 5 TND
Q_Q3
1 IN 5 TND
Q_Q4
2 INB 5 TND
Q_Q5
2 INB 5 TND
Q_Q6
2 INB 5 TNB
Q_Q7
5 VCS 6 TND
Q_Q8
5 VCS 6 TND
Q_Q9
5 VCS 6 TNB
Q_Q10
VCC 1 4 TNC
Q_Q11
VCC 2 3 TNC
R_R1
1 VCC 175
R_R2
2 VCC 175
R_R3
VEE 6 17
R_R4
VTT 3 50
R_R5
VTT 4 50
V_INB
INB 0
+PULSE −1.5 −0.95 1n 0.195n 0.195n 0.555n 1.5n
V_IN
IN 0
+PULSE −0.95 −1.5 1n 0.195n 0.195n 0.555n 1.5n
V_VEE
VEE 0 −3.3Vdc
V_VTT
VTT 0 −2Vdc
V_VCS
VCS 0 −2.36Vdc
V_VCC
VCC 0 0Vdc
.END OBUF08
http://onsemi.com
14
AND8009/D
TC Network
for 100EP
VCC
VCC
+
3.3 Vdc
R1
61.25
R2
61.25
TNA
−
0
1
Q8
TNC
2
283 TNA
Q9
TNC
5
IN
IN
Q1
TNB
Q2
TND
Q3
TND
Q4 INB
TNB
R4
4
R5
4
Q
+
V1 = 1.2
V2 = 1
TD = 1 n
TR = 0.13 n
TF = 0.13 n
PW = 0.5 n
PER = 1.26 n
6
QB
3
−
0
1.25
Vdc
VCS Q5
TND
+
Q6
TND
Q7
TND
+
−
V1 = 1
V2 = 1.2
TD = 1 n
TR = 0.13 n
TF = 0.13 n
PW = 0.5 n
PER = 1.26 n
4
−
VCS
0
INB
R3
14
VEE
0
R6
50
0
R7
50
VTT
+
1.3
Vdc −
VTT
0
Termination
Figure 12. OBUF09
.SUBCKT OBUF09 IN INB VCC VCS VTT VEE Q QB
Q_Q1
1 IN 3 TNB
Q_Q2
1 IN 3 TND
Q_Q3
2 INB 3 TND
Q_Q4
2 INB 3 TNB
Q_Q5
3 VCS 4 TND
Q_Q6
3 VCS 4 TND
Q_Q7
3 VCS 4 TND
Q_Q8
VCC 2 5 TNC
Q_Q9
VCC 1 6 TNC
R_R1
1 VCC 61.25
R_R2
2 VCC 61.25
R_R3
VEE 4 14
R_R4
Q 5 4
R_R5
QB 6 4
R_R6
VTT Q 50
R_R7
VTT QB 50
V_INB
INB 0
+PULSE 1 1.2 1n 0.13n 0.13n 0.5n 1.26n
V_IN
IN 0
+PULSE 1.2 1 1n 0.13n 0.13n 0.5n 1.26n
V_VCS
VCS 0 1.25Vdc
V_VCC
VCC 0 3.3Vdc
V_VTT
VTT 0 1.3Vdc
.END OBUF09
http://onsemi.com
15
AND8009/D
VCC
VCC
2.5 +
R6
90
1
−
0
R1
280
R2
280
TNA
TC Network
for 100EP
Q4
TNC
2
283 TNA
Q3
TNC
3
IN
IN
Q1
TNB
+
INB
V1 = 1.7
−
V2 = 1.5
INB
TD = 1 n
+
0
TR = 0.1 n
V1 = 1.5
TF = 0.1 n
−
V2 = 1.7
PW = 1 n
TD = 1 n
PER = 2.2 n
0
TR = 0.1 n
TF = 0.1 n
PW = 1 n
PER = 2.2 n
Q2
TND
4
R4
100
Q
QB
Termination
Q5
TNB
Q7
TNB
Q6
TNB
5
R3
74
6
R5
13
7
R7
13
VEE
+
VEE
0 Vdc
−
VCS
0.99
Vdc
+
−
VCS
0
Figure 13. OBUF10
.SUBCKT OBUF10 IN INB VCC VCS VEE Q QB
Q_Q1
3 IN 4 TNB
Q_Q2
2 INB 4 TNB
Q_Q3
VCC 3 QB TNC
Q_Q4
VCC 2 Q TNC
Q_Q5
4 VCS 5 TNB
Q_Q6
QB VCS 6 TNB
Q_Q7
Q VCS 7 TNB
R_R1
3 1 295
R_R2
2 1 295
R_R3
VEE 5 64.3
R_R4
QB Q 100
R_R5
VEE 6 10
R_R6
1 VCC 61.25
R_R7
VEE 7 10
V_IN
IN 0
+PULSE 1.5 1.7 1n 0.1n 0.1n 1n 2.6n
V_INB
INB 0
+PULSE 1.7 1.5 1n 0.1n 0.1n 1n 2.6n
V_VCC
VCC 0 2.5
V_VEE
VEE 0 0Vdc
V_VCS
VCS 0 0.99Vdc
.END OBUF10
http://onsemi.com
16
0
AND8009/D
VHSTL Internal Constant Voltage Source
VHSTL
+
VHSTL
R1
2.0 Vdc −
490
VCCO
R2
490
Q9
Q10
Q11
VCC0+
1.8 Vdc −
Q12
1
0
0
Q5
Q6
TNC
TNC
TNC
Q7
Q8 TNC
TNC
TNC
2
Q2
Q1
IN
INB
3
INB
V1 = 1.5
V2 = 1.3
TD = 1.0 n
TR = 0.5 n
TF = 0.5 n
PW = 5.0 n
PER = 11 n
IN
TNB
TNB
+
+
V1 = 1.3
V2 = 1.5
−
−
TD = 1.0 n
Q4
Q3
0
4
0
TR = 0.5 n
TF = 0.5 n
+
5
VCS
PW = 5.0 n
PER = 11 n
1.3 Vdc −
TND TND
0
R3
225
TNC
TNC
Q
QB
R4
50
R5
50
VTT
0
Termination
0
Figure 14. OBUF11
.SUBCKT OBUF11 IN INB VCCO VHSTL Q QB
Q_Q1
1 IN 3 TNB
Q_Q2
2 INB 3 TNB
Q_Q3
3 4 5 TND
Q_Q4
3 4 5 TND
Q_Q5
VCCO 2 Q TNC
Q_Q6
VCCO 2 Q TNC
Q_Q7
VCCO 2 Q TNC
Q_Q8
VCCO 2 Q TNC
Q_Q9
VCCO 1 QB TNC
Q_Q10
VCCO 1 QB TNC
Q_Q11
VCCO 1 QB TNC
Q_Q12
VCCO 1 QB TNC
R_R1
1 VHSTL 490
R_R2
2 VHSTL 490
R_R3
0 5 225
R_R4
0 Q 50
R_R5
0 QB 50
V_IN
IN 0
+PULSE 1.3 1.5 1n 0.5n 0.5n 5n 11n
V_INB
INB 0
+PULSE 1.5 1.3 1n 0.5n 0.5n 5n 11n
V_VCCO
VCCO 0 1.8Vdc
V_VHSTL
VHSTL 0 2.0Vdc
V_VCS
4 0 1.3Vdc
.END OBUF11
http://onsemi.com
17
AND8009/D
VCC
RB1
185
*RPU
D1
D2
D3
RB2
185
IN
D4
D5
D6
D7
D8
RPD
75 k
D9
PAD
Pulldown Resistor
VEE
* See device data sheet
Figure 15. Input ESD
.SUBCKT IN_ESD VCC VEE IN PAD
D1
IN
VCC
ESDM
D2
IN
VCC
ESDM
D3
IN
VCC
ESDM
D4
VEE
IN
ESDM
D5
VEE
IN
ESDS
D6
VEE
IN
ESDM
D7
VEE
IN
ESDS
D8
VEE
IN
ESDM
D9
VEE
IN
ESDS
RPD
IN
VEE
75K
RPU
IN
VCC
36.5K
RB1
IN
PAD
185
RB2
IN
PAD
185
.ENDS IN_ESD
VCC
PAD
D1
D3 D4
D2
D5
D6
VEE
Figure 16. Output ESD
.SUBCKT OUT_ESD
D1
OUT
D2
OUT
D3
VEE
D4
VEE
D5
VEE
D6
VEE
.ENDS OUT_ESD
VCC VEE OUT
VCC
ESDM
VCC
ESDM
OUT
ESDM
OUT
ESDS
OUT
ESDM
OUT
ESDS
http://onsemi.com
18
OUT
AND8009/D
The following is an example of a typical run−deck file which might be used to simulate Figure 17 to produce output waveform
shown in Figure 18.
TYPICAL TEST CIRCUIT
VCC
VEE
VCS
VTT
VIN
VINB
.GROUND
.TRAN
VCC
VEE
VCS
VTT
IN
INB
0
0.2NS
0
0
0
0
0
0
0V
−3.3V
−2.2V
−2.0V
PULSE(−1.7 −0.95 5NS 5NS 5NS 50NS 110NS)
PULSE(−0.95 −1.7 5NS 5NS 5NS 50NS 110NS)
120NS
R1
120
R2
120
Q11
OBUF01
TNC
IN
Q1
Q2
Q3
Q4
Q5
Q10
Q6
INB
TND
TNB
−1.33 Vdc
0
TND
TND
TND
+
−
0 Vdc
QB
TNB
Q
Q7
Q8
TND
V1 = 1.5 V
V2 = −0.95 V
TD = 1 n
TR = 0.15 n
TF = 0.15 n
PW = 1 n
PER = 6 n
Q9
TND
+
R4
50
−
0
−2 Vdc
TNB
R5
50
+
−
0
R3
28
Termination
125
R2B
125
Q7B
R3B
125
TNA
IN’
Q1B
Q2B
Q8B
TNA
Q3B Q4B
IN’B
TNA
TNA
TNA
Q5B
−2.2 Vdc
+
−
−3.3 Vdc
Q6B
TNA
VCS
+
VEE
TNA
Q9B
TNA
Q10B
TNA
Q15B Q16B
Q17B Q18B
TNA
TNA
TNA
TNA
TYPICAL
INPUT
BUFFER
TNA
Q11B Q12B
TNA
TNA
R4B
125
Q13B Q14B
TNA
R5B
67
−
0
−
0
+
VCC
TNC
Figure 17. EP16 Buffer
http://onsemi.com
19
TNA
Q19B Q20B Q21B Q22B
TNA
TNA
TNA
TNA
R6B
67
AND8009/D
−0.865 V
VOH = 932.6 mV
80%
−1.200 V
tr = 174.7 ps
CROSS POINT
Vout
tf = 131.8 ps
20%
−1.600 V
−1.837 V
9.9
VOL = 1720 mV
10.0
10.1
10.2
10.3
10.4
10.5
10.6
Time (ns)
Figure 18. Typical Generic Output Waveform
2.34 V
VOH = 2.281 V
80%
2.20 V
tr = 125.1 ps
CROSS POINT
Vout
tf = 118 ps
2.00 V
20%
1.84 V
1.509
VOL = 1.88 V
1.600
1.700
1.800
1.900
2.000
2.100
Time (ns)
Figure 19. OBUF09 Reduced Swing Output
Waveform (EP40/140)
1.4 V
80%
VOH = 1.42 V
tr = 179 ps
Vout
CROSS POINT
1.2 V
tf = 140 ps
20%
1.0 V
VOL = 0.946 V
4.854 5.000
5.200
5.400
5.600
5.800
6.000
Time (ns)
Figure 20. LVDS Output Waveform (EP210’s)
http://onsemi.com
20
6.188
AND8009/D
******************
Transistor and Diodes Nominal SPICE Models*
*******************
*****************************************************************************
.MODEL TNA NPN (IS=8.12e−18 BF=192 NF=1 VAF=75.6 IKF=1.49e−02
+ ISE=9.14e−17 NE=2 BR=15.8 VAR=2.76 IKR=2.2e−03 ISC=2.62e−16
+ NC=1.578 RB=327 IRB=4.8e−05 RBM=0.001 RE=10 RC=15 CJE=2.0e−14
+ VJE=.8867 MJE=.2868 TF=9.02e−12 ITF=7.6e−03 XTF=2.8 VTF=3.4 PTF=41.56 TR=1NS
+ CJC=5.6e−15 VJC=.6324 MJC=.3006 XCJC=.3 CJS=4.8e−15 VJS=.4193 MJS=.2563
+ EG=1.119 XTI=3.999 XTB=0.8826 FC=0.9)
*****************************************************************************
.MODEL TNB NPN (IS=2.71e−17 BF=172 NF=1 VAF=71.4 IKF=4.38e−02
+ ISE=1.33e−15 NE=2 BR=17.9 VAR=2.76 IKR=3.0e−03 ISC=2.22e−16
+ NC=1.578 RB=67 IRB=6.47e−05 RBM=0.001 RE=3 RC=4 CJE=5.09e−14
+ VJE=.8867 MJE=.2868 TF=9.02e−12 ITF=2.53e−02 XTF=2.8 VTF=3.4 PTF=41.56 TR=1NS
+ CJC=20.6e−15 VJC=.6324 MJC=.3006 XCJC=.3 CJS=1.7e−14 VJS=.4193 MJS=.2563
+ EG=1.119 XTI=3.999 XTB=0.8826 FC=0.9)
*****************************************************************************
.MODEL TNC NPN (IS=6.55e−17 BF=103 NF=1 VAF=90 IKF=2.91e−01
+ ISE=8.85e−15 NE=2 BR=15.7 NR=1 VAR=3.82 IKR=2.01e−02 ISC=1.48e−15
+ NC=2 RB=10.5 IRB=4.39e−04 RBM=0.29 RE=0.351 RC=9 CJE=3.5e−13
+ VJE=.8167 MJE=.1973 TF=8.99e−12 ITF=1.3e−01 XTF=5.67 VTF=1.86 PTF=41.43 TR=6.405e−10
+ CJC=1.4e−13 VJC=.6401 MJC=.2674 XCJC=1 CJS=9.3e−14 VJS=.5002 MJS=.1706
+ EG=1.135 XTI=4.177 XTB=0.6322 FC=0.961)
*****************************************************************************
.MODEL TND NPN (IS=1.36e−17 BF=180 NF=1 VAF=87.6 IKF=2.19e−02
+ ISE=6.65e−16 NE=2 BR=16.9 VAR=2.76 IKR=1.5e−03 ISC=1.11e−16
+ NC=1.578 RB=136 IRB=3.24e−05 RBM=0.001 RE=6 RC=8 CJE=1.02e−13
+ VJE=.8867 MJE=.2868 TF=9.02e−12 ITF=1.27e−02 XTF=2.8 VTF=3.4 PTF=41.56 TR=1NS
+ CJC=10.3e−15 VJC=.6324 MJC=.3006 XCJC=.3 CJS=9.94e−15 VJS=.4193 MJS=.2563
+ EG=1.119 XTI=3.999 XTB=0.8826 FC=0.9)
*****************************************************************************
.MODEL TNE NPN (IS=2.68e−18 BF=223 NF=1 VAF=56.0 IKF=3.96e−03
+ ISE=3.07e−17 NE=2 BR=13.9 VAR=2.76 IKR=7.23e−04 ISC=6.08e−17
+ NC=1.578 RB=386 IRB=1.3e−05 RBM=0.001 RE=26 RC=28 CJE=6.0e−15
+ VJE=.8867 MJE=.2868 TF=9.02PS ITF=2.6e−03 XTF=2.8 VTF=3.4 PTF=41.56 TR=1NS
+ CJC=3.4e−15 VJC=.6324 MJC=.3006 XCJC=.3 CJS=3.4e−15 VJS=.4193 MJS=.2563
+ EG=1.119 XTI=3.999 XTB=0.8826 FC=0.9)
*****************************************************************************
.MODEL ESDM D (IS=1.55E−14 CJO=160fF RS=12 VJ=.58 M=.25 BV=9)
*****************************************************************************
.MODEL ESDS D (IS=1.55E−14 CJO=29fF VJ=.624 M=.571)
*****************************************************************************
*SPICE MODELS 4.5
http://onsemi.com
21
AND8009/D
−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−
Package: SO−8
* SPICE subcircuit file of coupled transmission lines
*
* Transmission line model
*
* Conductor number−pin designation cross reference:
*
Conductor
Pin
*
1
1
*
2
2
*
3
3
*
4
4
*
5
5
*
6
6
*
7
7
*
8
8
*
* number of lumps:
1
* FASTEST APPLICABLE EDGE RATE:
0.076 ns
* COMPRESSION OF SUBCIRCUITS PERFORMED: discard ratio is 0.050
* Connect chip side to N**I and board side to N**O
*
.SUBCKT LINES N01I N01O N02I N02O N03I N03O N04I N04O
+ N05I N05O N06I N06O N07I N07O N08I N08O
L01WB
N01I
N01M
1.367e−09
L01
N01M
N01O
7.794e−10
C01
N01M
0
2.445e−13
L02WB
N02I
N02M
1.287e−09
L02
N02M
N02O
5.473e−10
C02
N02M
0
1.888e−13
L03WB
N03I
N03M
1.287e−09
L03
N03M
N03O
5.473e−10
C03
N03M
0
1.901e−13
L04WB
N04I
N04M
1.367e−09
L04
N04M
N04O
7.723e−10
C04
N04M
0
2.443e−13
L05WB
N05I
N05M
1.367e−09
L05
N05M
N05O
7.710e−10
C05
N05M
0
2.478e−13
L06WB
N06I
N06M
1.287e−09
L06
N06M
N06O
5.489e−10
C06
N06M
0
1.916e−13
L07WB
N07I
N07M
1.287e−09
L07
N07M
N07O
5.495e−10
C07
N07M
0
1.930e−13
L08WB
N08I
N08M
1.367e−09
L08
N08M
N08O
7.786e−10
C08
N08M
0
2.451e−13
K0102
L01
L02
0.1687
K0102WB L01WB
L02WB
0.3400
C0102
N01O
N02O
3.674e−14
K0103
L01
L03
0.0702
K0103WB L01WB
L03WB
0.1847
K0203
L02
L03
0.1822
K0203WB L02WB
L03WB
0.3505
C0203
N02O
N03O
3.521e−14
K0204
L02
L04
0.0682
K0204WB L02WB
L04WB
0.1847
K0304
L03
L04
0.1694
K0304WB L03WB
L04WB
0.3400
http://onsemi.com
22
AND8009/D
C0304
N03O
N04O
3.675e−14
K0305WB L03WB
L05WB
0.1847
K0405WB L04WB
L05WB
0.3455
K0406WB L04WB
L06WB
0.1847
K0506
L05
L06
0.1697
K0506WB L05WB
L06WB
0.3400
C0506
N05O
N06O
3.720e−14
K0507
L05
L07
0.0682
K0507WB L05WB
L07WB
0.1847
K0607
L06
L07
0.1824
K0607WB L06WB
L07WB
0.3505
C0607
N06O
N07O
3.570e−14
K0608
L06
L08
0.0702
K0608WB L06WB
L08WB
0.1847
K0708
L07
L08
0.1691
K0708WB L07WB
L08WB
0.3400
C0708
N07O
N08O
3.632e−14
.ENDS LINES
−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−
http://onsemi.com
23
AND8009/D
−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−
Package: TSSOP−8
* SPICE subcircuit file of coupled transmission lines
*
* Transmission line model
*
* Conductor number−pin designation cross reference:
* counter−clockwise
*
Conductor
Pin
*
1
1
*
2
2
*
3
3
*
4
4
*
5
5
*
6
6
*
7
7
*
8
8
*
* number of lumps:
1
* FASTEST APPLICABLE EDGE RATE:
0.048 ns
* COMPRESSION OF SUBCIRCUITS PERFORMED: discard ratio is 0.050
*
R_SHORT 0 GND 0.0001
*
X_777 N01I N01O N02I N02O N03I N03O N04I N04O
+ N05I N05O N06I N06O N07I N07O N08I N08O GND PACKAGE
*
.SUBCKT PACKAGE N01I N01O N02I N02O N03I N03O N04I N04O
+ N05I N05O N06I N06O N07I N07O N08I N08O GND
R01WB
N01I
N01W
4.727e−02
L01WB
N01W
N01R
1.158e−09
R01
N01R
N01C
9.680e−04
C01
N01C
GND
8.978e−14
L01
N01C
N01O
7.466e−10
R02WB
N02I
N02W
3.815e−02
L02WB
N02W
N02R
9.835e−10
R02
N02R
N02C
9.680e−04
C02
N02C
GND
7.711e−14
L02
N02C
N02O
7.466e−10
R03WB
N03I
N03W
3.815e−02
L03WB
N03W
N03R
9.835e−10
R03
N03R
N03C
9.680e−04
C03
N03C
GND
7.704e−14
L03
N03C
N03O
7.465e−10
R04WB
N04I
N04W
4.727e−02
L04WB
N04W
N04R
1.158e−09
R04
N04R
N04C
9.680e−04
C04
N04C
GND
8.983e−14
L04
N04C
N04O
7.460e−10
R05WB
N05I
N05W
4.727e−02
L05WB
N05W
N05R
1.158e−09
R05
N05R
N05C
9.680e−04
C05
N05C
GND
8.983e−14
L05
N05C
N05O
7.460e−10
R06WB
N06I
N06W
3.815e−02
L06WB
N06W
N06R
9.835e−10
R06
N06R
N06C
9.680e−04
C06
N06C
GND
7.704e−14
L06
N06C
N06O
7.465e−10
R07WB
N07I
N07W
3.815e−02
http://onsemi.com
24
AND8009/D
L07WB
N07W
N07R
9.835e−10
R07
N07R
N07C
9.680e−04
C07
N07C
GND
7.711e−14
L07
N07C
N07O
7.466e−10
R08WB
N08I
N08W
4.727e−02
L08WB
N08W
N08R
1.158e−09
R08
N08R
N08C
9.680e−04
C08
N08C
GND
8.978e−14
L08
N08C
N08O
7.466e−10
K0102
L01
L02
0.2481
K0102WB L01WB
L02WB
0.1729
C0102
N01C
N02C
2.283e−14
K0103
L01
L03
0.1067
K0103WB L01WB
L03WB
0.0598
K0104
L01
L04
0.0593
K0203
L02
L03
0.2479
K0203WB L02WB
L03WB
0.1463
C0203
N02C
N03C
2.136e−14
K0204
L02
L04
0.1068
K0204WB L02WB
L04WB
0.0598
K0304
L03
L04
0.2481
K0304WB L03WB
L04WB
0.1729
C0304
N03C
N04C
2.279e−14
K0506
L05
L06
0.2481
K0506WB L05WB
L06WB
0.1513
C0506
N05C
N06C
2.279e−14
K0507
L05
L07
0.1068
K0507WB L05WB
L07WB
0.0615
K0508
L05
L08
0.0593
K0607
L06
L07
0.2479
K0607WB L06WB
L07WB
0.1729
C0607
N06C
N07C
2.136e−14
K0608
L06
L08
0.1067
K0608WB L06WB
L08WB
0.0615
K0708
L07
L08
0.2481
K0708WB L07WB
L08WB
0.1513
C0708
N07C
N08C
2.283e−14
.ENDS PACKAGE
−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−
http://onsemi.com
25
AND8009/D
−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−
Package: SO−20
* SPICE subcircuit file of coupled transmission lines
*
* Transmission line model
*
* Conductor number−pin designation cross reference:
*
Conductor
Pin
*
1
1
*
2
2
*
3
3
*
4
4
*
5
5
*
6
6
*
7
7
*
8
8
*
9
9
*
10
10
*
11
11
*
12
12
*
13
13
*
14
14
*
15
15
*
16
16
*
17
17
*
18
18
*
19
19
*
20
20
*
* number of lumps:
1
* FASTEST APPLICABLE EDGE RATE:
0.275 ns
* COMPRESSION OF SUBCIRCUITS PERFORMED: discard ratio is 0.050
*
.SUBCKT PACKAGE N01I N01O N02I N02O N03I N03O N04I N04O
+ N05I N05O N06I N06O N07I N07O N08I N08O N09I N09O
+ N10I N10O N11I N11O N12I N12O N13I N13O N14I N14O
+ N15I N15O N16I N16O N17I N17O N18I N18O N19I N19O
+ N20I N20O BD_GND
R01WB
N01I
N01W
3.732e−02
L01WB
N01W
N01R
9.678e−10
R01
N01R
N01C
1.700e−02
C01
N01C
BD_GND 4.680e−13
L01
N01C
N01O
3.814e−09
R02WB
N02I
N02W
8.086e−02
L02WB
N02W
N02R
1.822e−09
R02
N02R
N02C
1.300e−02
C02
N02C
BD_GND 1.924e−13
L02
N02C
N02O
2.724e−09
R03WB
N03I
N03W
9.122e−02
L03WB
N03W
N03R
2.033e−09
R03
N03R
N03C
9.000e−02
C03
N03C
BD_GND 1.377e−13
L03
N03C
N03O
1.814e−09
R04WB
N04I
N04W
7.878e−02
L04WB
N04W
N04R
1.780e−09
R04
N04R
N04C
8.000e−02
C04
N04C
BD_GND 1.484e−13
L04
N04C
N04O
1.551e−09
R05WB
N05I
N05W
6.634e−02
L05WB
N05W
N05R
1.531e−09
R05
N05R
N05C
7.000e−02
http://onsemi.com
26
AND8009/D
C05
L05
R06WB
L06WB
R06
C06
L06
R07WB
L07WB
R07
C07
L07
R08WB
L08WB
R08
C08
L08
R09WB
L09WB
R09
C09
L09
R10WB
L10WB
R10
C10
L10
R11WB
L11WB
R11
C11
L11
R12WB
L12WB
R12
C12
L12
R13WB
L13WB
R13
C13
L13
R14WB
L14WB
R14
C14
L14
R15WB
L15WB
R15
C15
L15
R16WB
L16WB
R16
C16
L16
R17WB
L17WB
R17
C17
L17
N05C
N05C
N06I
N06W
N06R
N06C
N06C
N07I
N07W
N07R
N07C
N07C
N08I
N08W
N08R
N08C
N08C
N09I
N09W
N09R
N09C
N09C
N10I
N10W
N10R
N10C
N10C
N11I
N11W
N11R
N11C
N11C
N12I
N12W
N12R
N12C
N12C
N13I
N13W
N13R
N13C
N13C
N14I
N14W
N14R
N14C
N14C
N15I
N15W
N15R
N15C
N15C
N16I
N16W
N16R
N16C
N16C
N17I
N17W
N17R
N17C
N17C
BD_GND
N05O
N06W
N06R
N06C
BD_GND
N06O
N07W
N07R
N07C
BD_GND
N07O
N08W
N08R
N08C
BD_GND
N08O
N09W
N09R
N09C
BD_GND
N09O
N10W
N10R
N10C
BD_GND
N10O
N11W
N11R
N11C
BD_GND
N11O
N12W
N12R
N12C
BD_GND
N12O
N13W
N13R
N13C
BD_GND
N13O
N14W
N14R
N14C
BD_GND
N14O
N15W
N15R
N15C
BD_GND
N15O
N16W
N16R
N16C
BD_GND
N16O
N17W
N17R
N17C
BD_GND
N17O
1.635e−13
1.508e−09
6.634e−02
1.531e−09
7.000e−02
1.584e−13
1.508e−09
7.878e−02
1.780e−09
8.000e−02
1.476e−13
1.553e−09
4.976e−02
1.206e−09
9.000e−02
1.322e−13
1.820e−09
8.086e−02
1.822e−09
1.300e−02
1.864e−13
2.725e−09
7.256e−02
1.655e−09
1.700e−02
4.681e−13
3.814e−09
3.732e−02
9.678e−10
1.700e−02
4.761e−13
3.795e−09
8.086e−02
1.822e−09
1.300e−02
1.888e−13
2.745e−09
9.122e−02
2.033e−09
9.000e−02
1.346e−13
1.879e−09
7.878e−02
1.780e−09
8.000e−02
1.496e−13
1.436e−09
6.634e−02
1.531e−09
7.000e−02
1.550e−13
1.464e−09
6.634e−02
1.531e−09
7.000e−02
1.568e−13
1.465e−09
7.878e−02
1.780e−09
8.000e−02
1.492e−13
1.437e−09
http://onsemi.com
27
AND8009/D
R18WB
L18WB
R18
C18
L18
R19WB
L19WB
R19
C19
L19
R20WB
L20WB
R20
C20
L20
K0102
K0102WB
C0102
K0103
K0104
K0105
K0106
K0107
K0108
K0111
K0112
K0113
K0114
K0115
K0116
K0117
K0118
K0203
K0203WB
C0203
K0204
K0205
K0206
K0207
K0208
K0209
K0211
K0212
K0213
K0214
K0215
K0216
K0217
K0218
K0304
K0304WB
C0304
K0305
K0306
K0307
K0308
K0309
K0310
K0311
K0312
K0313
K0314
N18I
N18W
N18R
N18C
N18C
N19I
N19W
N19R
N19C
N19C
N20I
N20W
N20R
N20C
N20C
L01
L01WB
N01C
L01
L01
L01
L01
L01
L01
L01
L01
L01
L01
L01
L01
L01
L01
L02
L02WB
N02C
L02
L02
L02
L02
L02
L02
L02
L02
L02
L02
L02
L02
L02
L02
L03
L03WB
N03C
L03
L03
L03
L03
L03
L03
L03
L03
L03
L03
N18W
N18R
N18C
BD_GND
N18O
N19W
N19R
N19C
BD_GND
N19O
N20W
N20R
N20C
BD_GND
N20O
L02
L02WB
N02C
L03
L04
L05
L06
L07
L08
L11
L12
L13
L14
L15
L16
L17
L18
L03
L03WB
N03C
L04
L05
L06
L07
L08
L09
L11
L12
L13
L14
L15
L16
L17
L18
L04
L04WB
N04C
L05
L06
L07
L08
L09
L10
L11
L12
L13
L14
9.122e−02
2.033e−09
9.000e−02
1.346e−13
1.892e−09
8.086e−02
1.822e−09
1.300e−02
1.880e−13
2.767e−09
7.256e−02
1.655e−09
1.700e−02
4.712e−13
3.825e−09
0.4539
0.1239
2.674e−13
0.2557
0.1742
0.1290
0.1011
0.0834
0.0636
−0.0789
−0.0755
−0.0716
−0.0594
−0.0669
−0.0657
−0.0672
−0.0625
0.3964
0.1239
1.529e−13
0.2341
0.1587
0.1206
0.0974
0.0760
0.0554
−0.0743
−0.0723
−0.0707
−0.0604
−0.0678
−0.0677
−0.0685
−0.0682
0.3767
0.1239
1.006e−13
0.2211
0.1564
0.1219
0.0956
0.0762
0.0639
−0.0654
−0.0662
−0.0688
−0.0614
http://onsemi.com
28
AND8009/D
K0315
K0316
K0317
K0318
K0319
K0320
K0405
K0405WB
C0405
K0406
K0407
K0408
K0409
K0410
K0411
K0412
K0413
K0414
K0415
K0416
K0417
K0418
K0419
K0420
K0506
K0506WB
C0506
K0507
K0508
K0509
K0510
K0511
K0512
K0513
K0514
K0515
K0516
K0517
K0518
K0519
K0520
K0607
K0607WB
C0607
K0608
K0609
K0610
K0611
K0612
K0613
K0614
K0615
K0616
K0617
K0618
K0619
K0620
K0708
K0708WB
C0708
K0709
K0710
L03
L03
L03
L03
L03
L03
L04
L04WB
N04C
L04
L04
L04
L04
L04
L04
L04
L04
L04
L04
L04
L04
L04
L04
L04
L05
L05WB
N05C
L05
L05
L05
L05
L05
L05
L05
L05
L05
L05
L05
L05
L05
L05
L06
L06WB
N06C
L06
L06
L06
L06
L06
L06
L06
L06
L06
L06
L06
L06
L06
L07
L07WB
N07C
L07
L07
L15
L16
L17
L18
L19
L20
L05
L05WB
N05C
L06
L07
L08
L09
L10
L11
L12
L13
L14
L15
L16
L17
L18
L19
L20
L06
L06WB
N06C
L07
L08
L09
L10
L11
L12
L13
L14
L15
L16
L17
L18
L19
L20
L07
L07WB
N07C
L08
L09
L10
L11
L12
L13
L14
L15
L16
L17
L18
L19
L20
L08
L08WB
N08C
L09
L10
−0.0683
−0.0692
−0.0684
−0.0730
−0.0609
−0.0501
0.3731
0.1239
8.137e−14
0.2290
0.1637
0.1218
0.0976
0.0836
−0.0645
−0.0673
−0.0722
−0.0658
−0.0724
−0.0733
−0.0708
−0.0763
−0.0673
−0.0597
0.3775
0.1239
8.844e−14
0.2293
0.1565
0.1208
0.1013
−0.0636
−0.0679
−0.0742
−0.0683
−0.0737
−0.0741
−0.0704
−0.0760
−0.0684
−0.0622
0.3743
0.1239
7.898e−14
0.2214
0.1591
0.1293
−0.0607
−0.0668
−0.0752
−0.0700
−0.0741
−0.0742
−0.0690
−0.0754
−0.0697
−0.0652
0.3762
0.1239
1.016e−13
0.2343
0.1746
http://onsemi.com
29
AND8009/D
K0711
K0712
K0713
K0714
K0715
K0716
K0717
K0718
K0719
K0720
K0809
K0809WB
C0809
K0810
K0812
K0813
K0814
K0815
K0816
K0817
K0818
K0819
K0820
K0910
K0910WB
C0910
K0913
K0914
K0915
K0916
K0917
K0918
K0919
K0920
K1011WB
K1013
K1014
K1015
K1016
K1017
K1018
K1019
K1020
K1112
K1112WB
C1112
K1113
K1114
K1115
K1116
K1117
K1118
K1213
K1213WB
C1213
K1214
K1215
K1216
K1217
K1218
K1314
K1314WB
L07
L07
L07
L07
L07
L07
L07
L07
L07
L07
L08
L08WB
N08C
L08
L08
L08
L08
L08
L08
L08
L08
L08
L08
L09
L09WB
N09C
L09
L09
L09
L09
L09
L09
L09
L09
L10WB
L10
L10
L10
L10
L10
L10
L10
L10
L11
L11WB
N11C
L11
L11
L11
L11
L11
L11
L12
L12WB
N12C
L12
L12
L12
L12
L12
L13
L13WB
L11
L12
L13
L14
L15
L16
L17
L18
L19
L20
L09
L09WB
N09C
L10
L12
L13
L14
L15
L16
L17
L18
L19
L20
L10
L10WB
N10C
L13
L14
L15
L16
L17
L18
L19
L20
L11WB
L13
L14
L15
L16
L17
L18
L19
L20
L12
L12WB
N12C
L13
L14
L15
L16
L17
L18
L13
L13WB
N13C
L14
L15
L16
L17
L18
L14
L14WB
−0.0581
−0.0657
−0.0756
−0.0707
−0.0736
−0.0730
−0.0667
−0.0735
−0.0692
−0.0661
0.3970
0.1239
1.545e−13
0.2564
−0.0591
−0.0723
−0.0685
−0.0698
−0.0693
−0.0624
−0.0702
−0.0681
−0.0670
0.4542
0.1239
2.677e−13
−0.0675
−0.0688
−0.0687
−0.0693
−0.0618
−0.0723
−0.0742
−0.0759
0.1239
−0.0616
−0.0675
−0.0668
−0.0685
−0.0609
−0.0731
−0.0773
−0.0803
0.4562
0.1239
2.679e−13
0.2725
0.1533
0.1161
0.0901
0.0702
0.0567
0.4103
0.1239
1.538e−13
0.2091
0.1398
0.1055
0.0812
0.0684
0.3577
0.1239
http://onsemi.com
30
AND8009/D
C1314
N13C
N14C
1.026e−13
K1315
L13
L15
0.2088
K1316
L13
L16
0.1474
K1317
L13
L17
0.1074
K1318
L13
L18
0.0930
K1319
L13
L19
0.0693
K1320
L13
L20
0.0578
K1415
L14
L15
0.3383
K1415WB L14WB
L15WB
0.1239
C1415
N14C
N15C
7.843e−14
K1416
L14
L16
0.1987
K1417
L14
L17
0.1302
K1418
L14
L18
0.1078
K1419
L14
L19
0.0825
K1420
L14
L20
0.0715
K1516
L15
L16
0.3631
K1516WB L15WB
L16WB
0.1239
C1516
N15C
N16C
9.179e−14
K1517
L15
L17
0.1988
K1518
L15
L18
0.1480
K1519
L15
L19
0.1072
K1520
L15
L20
0.0918
K1617
L16
L17
0.3380
K1617WB L16WB
L17WB
0.1239
C1617
N16C
N17C
7.810e−14
K1618
L16
L18
0.2096
K1619
L16
L19
0.1419
K1620
L16
L20
0.1183
K1718
L17
L18
0.3595
K1718WB L17WB
L18WB
0.1239
C1718
N17C
N18C
1.034e−13
K1719
L17
L19
0.2122
K1720
L17
L20
0.1565
K1819
L18
L19
0.4140
K1819WB L18WB
L19WB
0.1239
C1819
N18C
N19C
1.536e−13
K1820
L18
L20
0.2766
K1920
L19
L20
0.4603
K1920WB L19WB
L20WB
0.1239
C1920
N19C
N20C
2.679e−13
.ENDS PACKAGE
−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−
http://onsemi.com
31
AND8009/D
−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−
Package: TSSOP−20
* SPICE subcircuit file of coupled transmission lines
*
* Transmission line model
*
* Conductor number−pin designation cross reference:
*
Conductor
Pin
*
1
1
*
2
2
*
3
3
*
4
4
*
5
5
*
6
6
*
7
7
*
8
8
*
9
9
*
10
10
*
11
11
*
12
12
*
13
13
*
14
14
*
15
15
*
16
16
*
17
17
*
18
18
*
19
19
*
20
20
*
* number of lumps: 1
* FASTEST APPLICABLE EDGE RATE: 0.114 ns
* Equivalent bandwidth:
3.07GHz
* COMPRESSION OF SUBCIRCUITS PERFORMED: discard ratio is 0.050
*
**CONNECT CHIP SIDE TO N**I AND BOARD SIDE TO N**O
* ECLinPS PLUS usage requires the input nodes used in the subcircuit call
* statement(X_777) that are tied to global ports(VCC, VCCO, and VEE internal
* to the die) to have the same global names in the subcircuit call statement(X_777) .
* For example, if VCC is wirebonded to pin 20 for a certain design, then N20I
* should be relabeled to VCC. Again, the change needs only to be incorporated
* in the X_777 subcircuit callout statement. Since this requires a change to
* the netlist below, it is necessary for each design to have a copy of this file with
* the appropriate changes made that are required for that design.
*
R_SHORT 0 GND 0.0001
X_777 N01I N01O N02I N02O N03I N03O N04I N04O
+ N05I N05O N06I N06O N07I N07O N08I N08O N09I N09O
+ N10I N10O N11I N11O N12I N12O N13I N13O N14I N14O
+ N15I N15O N16I N16O N17I N17O N18I N18O N19I N19O
+ N20I N20O GND PACKAGE
.SUBCKT PACKAGE N01I N01O N02I N02O N03I N03O N04I N04O
+ N05I N05O N06I N06O N07I N07O N08I N08O N09I N09O
+ N10I N10O N11I N11O N12I N12O N13I N13O N14I N14O
+ N15I N15O N16I N16O N17I N17O N18I N18O N19I N19O
+ N20I N20O GND
R01WB N01I N01W 5.225e−02
L01WB N01W N01R 1.254e−09
R01 N01R N01C 2.100e−03
C01 N01C GND 1.840e−13
L01 N01C N01O 1.603e−09
http://onsemi.com
32
AND8009/D
R02WB N02I N02W 5.473e−02
L02WB N02W N02R 1.303e−09
R02 N02R N02C 2.500e−03
C02 N02C GND 8.995e−14
L02 N02C N02O 1.187e−09
R03WB N03I N03W 5.266e−02
L03WB N03W N03R 1.262e−09
R03 N03R N03C 2.500e−03
C03 N03C GND 7.204e−14
L03 N03C N03O 9.073e−10
R04WB N04I N04W 3.690e−02
L04WB N04W N04R 9.599e−10
R04 N04R N04C 2.100e−03
C04 N04C GND 8.838e−14
L04 N04C N04O 9.053e−10
R05WB N05I N05W 3.151e−02
L05WB N05W N05R 8.581e−10
R05 N05R N05C 1.700e−03
C05 N05C GND 9.879e−14
L05 N05C N05O 9.065e−10
R06WB N06I N06W 3.151e−02
L06WB N06W N06R 8.581e−10
R06 N06R N06C 1.700e−03
C06 N06C GND 9.879e−14
L06 N06C N06O 9.065e−10
R07WB N07I N07W 3.690e−02
L07WB N07W N07R 9.599e−10
R07 N07R N07C 2.100e−03
C07 N07C GND 8.838e−14
L07 N07C N07O 9.053e−10
R08WB N08I N08W 5.266e−02
L08WB N08W N08R 1.262e−09
R08 N08R N08C 2.500e−03
C08 N08C GND 7.204e−14
L08 N08C N08O 9.073e−10
R09WB N09I N09W 5.473e−02
L09WB N09W N09R 1.303e−09
R09 N09R N09C 2.500e−03
C09 N09C GND 8.995e−14
L09 N09C N09O 1.187e−09
R10WB N10I N10W 5.225e−02
L10WB N10W N10R 1.254e−09
R10 N10R N10C 2.100e−03
C10 N10C GND 1.840e−13
L10 N10C N10O 1.603e−09
R11WB N11I N11W 5.225e−02
L11WB N11W N11R 1.254e−09
R11 N11R N11C 2.100e−03
C11 N11C GND 1.840e−13
L11 N11C N11O 1.603e−09
R12WB N12I N12W 5.473e−02
L12WB N12W N12R 1.303e−09
R12 N12R N12C 2.500e−03
C12 N12C GND 8.995e−14
L12 N12C N12O 1.187e−09
R13WB N13I N13W 5.266e−02
L13WB N13W N13R 1.262e−09
R13 N13R N13C 2.500e−03
C13 N13C GND 7.204e−14
L13 N13C N13O 9.073e−10
R14WB N14I N14W 3.690e−02
L14WB N14W N14R 9.599e−10
http://onsemi.com
33
AND8009/D
R14 N14R N14C 2.100e−03
C14 N14C GND 8.838e−14
L14 N14C N14O 9.053e−10
R15WB N15I N15W 3.151e−02
L15WB N15W N15R 8.581e−10
R15 N15R N15C 1.700e−03
C15 N15C GND 9.879e−14
L15 N15C N15O 9.065e−10
R16WB N16I N16W 3.151e−02
L16WB N16W N16R 8.581e−10
R16 N16R N16C 1.700e−03
C16 N16C GND 9.879e−14
L16 N16C N16O 9.065e−10
R17WB N17I N17W 3.690e−02
L17WB N17W N17R 9.599e−10
R17 N17R N17C 2.100e−03
C17 N17C GND 8.838e−14
L17 N17C N17O 9.053e−10
R18WB N18I N18W 5.266e−02
L18WB N18W N18R 1.262e−09
R18 N18R N18C 2.500e−03
C18 N18C GND 7.204e−14
L18 N18C N18O 9.073e−10
R19WB N19I N19W 5.473e−02
L19WB N19W N19R 1.303e−09
R19 N19R N19C 2.500e−03
C19 N19C GND 8.995e−14
L19 N19C N19O 1.187e−09
R20WB N20I N20W 5.225e−02
L20WB N20W N20R 1.254e−09
R20 N20R N20C 2.100e−03
C20 N20C GND 1.840e−13
L20 N20C N20O 1.603e−09
K0102 L01 L02 0.2780
K0102WB L01WB L02WB 0.2168
C0102 N01C N02C 1.222e−13
K0103 L01 L03 0.1016
K0103WB L01WB L03WB 0.0788
K0104 L01 L04 0.0559
K0120WB L01WB L20WB 0.1061
K0119WB L01WB L19WB 0.0542
K0203 L02 L03 0.2333
K0203WB L02WB L03WB 0.1970
C0203 N02C N03C 7.150e−14
K0204 L02 L04 0.1006
K0204WB L02WB L04WB 0.0729
K0205 L02 L05 0.0577
K0220WB L02WB L20WB 0.0542
K0304 L03 L04 0.2384
K0304WB L03WB L04WB 0.1787
C0304 N03C N04C 5.860e−14
K0305 L03 L05 0.1055
K0305WB L03WB L05WB 0.0542
K0306 L03 L06 0.0577
K0405 L04 L05 0.2370
K0405WB L04WB L05WB 0.1281
C0405 N04C N05C 5.812e−14
K0406 L04 L06 0.0939
K0407 L04 L07 0.0583
K0506 L05 L06 0.1951
K0506WB L05WB L06WB 0.0908
C0506 N05C N06C 3.558e−14
http://onsemi.com
34
AND8009/D
K0507 L05 L07 0.0939
K0508 L05 L08 0.0577
K0607 L06 L07 0.2370
K0607WB L06WB L07WB 0.1281
C0607 N06C N07C 5.812e−14
K0608 L06 L08 0.1055
K0608WB L06WB L08WB 0.0542
K0609 L06 L09 0.0577
K0708 L07 L08 0.2384
K0708WB L07WB L08WB 0.1787
C0708 N07C N08C 5.860e−14
K0709 L07 L09 0.1006
K0709WB L07WB L09WB 0.0729
K0710 L07 L10 0.0559
K0809 L08 L09 0.2333
K0809WB L08WB L09WB 0.1970
C0809 N08C N09C 7.150e−14
K0810 L08 L10 0.1016
K0810WB L08WB L10WB 0.0788
K0910 L09 L10 0.2780
K0910WB L09WB L10WB 0.2168
C0910 N09C N10C 1.222e−13
K0911WB L09WB L11WB 0.0542
K1011WB L10WB L11WB 0.1061
K1012WB L10WB L12WB 0.0542
K1112 L11 L12 0.2780
K1112WB L11WB L12WB 0.2168
C1112 N11C N12C 1.222e−13
K1113 L11 L13 0.1016
K1113WB L11WB L13WB 0.0788
K1114 L11 L14 0.0559
K1213 L12 L13 0.2333
K1213WB L12WB L13WB 0.1970
C1213 N12C N13C 7.150e−14
K1214 L12 L14 0.1006
K1214WB L12WB L14WB 0.0729
K1215 L12 L15 0.0577
K1314 L13 L14 0.2384
K1314WB L13WB L14WB 0.1787
C1314 N13C N14C 5.860e−14
K1315 L13 L15 0.1055
K1315WB L13WB L15WB 0.0542
K1316 L13 L16 0.0577
K1415 L14 L15 0.2370
K1415WB L14WB L15WB 0.1281
C1415 N14C N15C 5.812e−14
K1416 L14 L16 0.0939
K1417 L14 L17 0.0583
K1516 L15 L16 0.1951
K1516WB L15WB L16WB 0.0908
C1516 N15C N16C 3.558e−14
K1517 L15 L17 0.0939
K1518 L15 L18 0.0577
K1617 L16 L17 0.2370
K1617WB L16WB L17WB 0.1281
C1617 N16C N17C 5.812e−14
K1618 L16 L18 0.1055
K1618WB L16WB L18WB 0.0542
K1619 L16 L19 0.0577
K1718 L17 L18 0.2384
K1718WB L17WB L18WB 0.1787
C1718 N17C N18C 5.860e−14
http://onsemi.com
35
AND8009/D
K1719 L17 L19 0.1006
K1719WB L17WB L19WB 0.0729
K1720 L17 L20 0.0559
K1819 L18 L19 0.2333
K1819WB L18WB L19WB 0.1970
C1819 N18C N19C 7.150e−14
K1820 L18 L20 0.1016
K1820WB L18WB L20WB 0.0788
K1920 L19 L20 0.2780
K1920WB L19WB L20WB 0.2168
C1920 N19C N20C 1.222e−13
.ENDS PACKAGE
−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−
http://onsemi.com
36
AND8009/D
−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−
Package:24 Lead QFN
*
*
***********************************************************
* Note:
* 1. The model assume ground plane is 15 mil below package
* 2. The model assume flag is grounded
* 3. the model assume single wires are used for each pin.
***********************************************************
* Lead Frame drawing: 4 x 4 mm QFN
* Case Outline :
***********************************************************
*
* Package: 24 pin QFN
* Model for 24 pins
*
*
* Conductor number−pin designation cross reference:
*
*
Conductor
Pin
*
1
1
*
2
2
*
3
3
*
4
4
*
5
5
*
6
6
*
7
7
*
8
8
*
9
9
*
10
10
*
11
11
*
12
12
*
13
13
*
14
14
*
15
15
*
16
16
*
17
17
*
18
18
*
19
19
*
20
20
*
21
21
*
22
22
*
23
23
*
24
24
*
* number of lumps:
1
* FASTEST APPLICABLE EDGE RATE:
0.005 ns
* COMPRESSION OF SUBCIRCUITS PERFORMED: discard ratio is 0.050
*
.SUBCKT PACKAGE N01I N01O N02I N02O N03I N03O N04I N04O
+ N05I N05O N06I N06O N07I N07O N08I N08O N09I N09O
+ N10I N10O N11I N11O N12I N12O N13I N13O N14I N14O
+ N15I N15O N16I N16O N17I N17O N18I N18O N19I N19O
+ N20I N20O N21I N21O N22I N22O N23I N23O N24I N24O BD_GND
R01WB
N01I
N01W
5.556e−02
L01WB
N01W
N01R
1.319e−09
R01
N01R
N01C
5.000e−03
C01
N01C
BD_GND 5.826e−14
L01
N01C
N01O
1.349e−11
http://onsemi.com
37
AND8009/D
R02WB
L02WB
R02
C02
L02
R03WB
L03WB
R03
C03
L03
R04WB
L04WB
R04
C04
L04
R05WB
L05WB
R05
C05
L05
R06WB
L06WB
R06
C06
L06
R07WB
L07WB
R07
C07
L07
R08WB
L08WB
R08
C08
L08
R09WB
L09WB
R09
C09
L09
R10WB
L10WB
R10
C10
L10
R11WB
L11WB
R11
C11
L11
R12WB
L12WB
R12
C12
L12
R13WB
L13WB
R13
C13
L13
R14WB
L14WB
N02I
N02W
N02R
N02C
N02C
N03I
N03W
N03R
N03C
N03C
N04I
N04W
N04R
N04C
N04C
N05I
N05W
N05R
N05C
N05C
N06I
N06W
N06R
N06C
N06C
N07I
N07W
N07R
N07C
N07C
N08I
N08W
N08R
N08C
N08C
N09I
N09W
N09R
N09C
N09C
N10I
N10W
N10R
N10C
N10C
N11I
N11W
N11R
N11C
N11C
N12I
N12W
N12R
N12C
N12C
N13I
N13W
N13R
N13C
N13C
N14I
N14W
N02W
N02R
N02C
BD_GND
N02O
N03W
N03R
N03C
BD_GND
N03O
N04W
N04R
N04C
BD_GND
N04O
N05W
N05R
N05C
BD_GND
N05O
N06W
N06R
N06C
BD_GND
N06O
N07W
N07R
N07C
BD_GND
N07O
N08W
N08R
N08C
BD_GND
N08O
N09W
N09R
N09C
BD_GND
N09O
N10W
N10R
N10C
BD_GND
N10O
N11W
N11R
N11C
BD_GND
N11O
N12W
N12R
N12C
BD_GND
N12O
N13W
N13R
N13C
BD_GND
N13O
N14W
N14R
4.976e−02
1.206e−09
5.000e−03
4.590e−14
1.328e−11
4.665e−02
1.146e−09
5.000e−03
4.486e−14
1.329e−11
4.665e−02
1.146e−09
5.000e−03
4.453e−14
1.328e−11
4.976e−02
1.206e−09
5.000e−03
4.608e−14
1.324e−11
5.556e−02
1.319e−09
5.000e−03
5.836e−14
1.342e−11
5.556e−02
1.319e−09
5.000e−03
5.857e−14
1.339e−11
4.976e−02
1.206e−09
5.000e−03
4.581e−14
1.324e−11
4.665e−02
1.146e−09
5.000e−03
4.446e−14
1.328e−11
4.665e−02
1.146e−09
5.000e−03
4.450e−14
1.331e−11
4.976e−02
1.206e−09
5.000e−03
4.587e−14
1.329e−11
5.556e−02
1.319e−09
5.000e−03
5.815e−14
1.345e−11
5.556e−02
1.319e−09
5.000e−03
5.840e−14
1.344e−11
4.976e−02
1.206e−09
http://onsemi.com
38
AND8009/D
R14
C14
L14
R15WB
L15WB
R15
C15
L15
R16WB
L16WB
R16
C16
L16
R17WB
L17WB
R17
C17
L17
R18WB
L18WB
R18
C18
L18
R19WB
L19WB
R19
C19
L19
R20WB
L20WB
R20
C20
L20
R21WB
L21WB
R21
C21
L21
R22WB
L22WB
R22
C22
L22
R23WB
L23WB
R23
C23
L23
R24WB
L24WB
R24
C24
L24
K0102
K0102WB
C0102
K0103
K0103WB
K0104
K0105
K0106
K0121
N14R
N14C
N14C
N15I
N15W
N15R
N15C
N15C
N16I
N16W
N16R
N16C
N16C
N17I
N17W
N17R
N17C
N17C
N18I
N18W
N18R
N18C
N18C
N19I
N19W
N19R
N19C
N19C
N20I
N20W
N20R
N20C
N20C
N21I
N21W
N21R
N21C
N21C
N22I
N22W
N22R
N22C
N22C
N23I
N23W
N23R
N23C
N23C
N24I
N24W
N24R
N24C
N24C
L01
L01WB
N01C
L01
L01WB
L01
L01
L01
L01
N14C
BD_GND
N14O
N15W
N15R
N15C
BD_GND
N15O
N16W
N16R
N16C
BD_GND
N16O
N17W
N17R
N17C
BD_GND
N17O
N18W
N18R
N18C
BD_GND
N18O
N19W
N19R
N19C
BD_GND
N19O
N20W
N20R
N20C
BD_GND
N20O
N21W
N21R
N21C
BD_GND
N21O
N22W
N22R
N22C
BD_GND
N22O
N23W
N23R
N23C
BD_GND
N23O
N24W
N24R
N24C
BD_GND
N24O
L02
L02WB
N02C
L03
L03WB
L04
L05
L06
L21
5.000e−03
4.612e−14
1.329e−11
4.665e−02
1.146e−09
5.000e−03
4.473e−14
1.332e−11
4.665e−02
1.146e−09
5.000e−03
4.464e−14
1.328e−11
4.976e−02
1.206e−09
5.000e−03
4.582e−14
1.325e−11
5.556e−02
1.319e−09
5.000e−03
5.818e−14
1.343e−11
5.556e−02
1.319e−09
5.000e−03
5.829e−14
1.343e−11
4.976e−02
1.206e−09
5.000e−03
4.615e−14
1.332e−11
4.665e−02
1.146e−09
5.000e−03
4.467e−14
1.336e−11
4.665e−02
1.146e−09
5.000e−03
4.476e−14
1.340e−11
4.976e−02
1.206e−09
5.000e−03
4.582e−14
1.340e−11
5.556e−02
1.319e−09
5.000e−03
5.872e−14
1.347e−11
0.2857
0.2034
1.685e−14
0.1556
0.0777
0.1042
0.0778
0.0624
0.0549
http://onsemi.com
39
AND8009/D
K0122
K0123
K0124
K0203
K0203WB
C0203
K0204
K0204WB
K0205
K0206
K0221
K0222
K0223
K0224
K0304
K0304WB
C0304
K0305
K0305WB
K0306
K0307
K0308
K0322
K0323
K0324
K0405
K0405WB
C0405
K0406
K0406WB
K0407
K0408
K0409
K0424
K0506
K0506WB
C0506
K0507
K0507WB
K0508
K0509
K0510
K0607
K0607WB
K0608
K0608WB
K0609
K0610
K0708
K0708WB
C0708
K0709
K0709WB
K0710
K0711
K0712
K0809
K0809WB
C0809
K0810
K0810WB
K0811
L01
L01
L01
L02
L02WB
N02C
L02
L02WB
L02
L02
L02
L02
L02
L02
L03
L03WB
N03C
L03
L03WB
L03
L03
L03
L03
L03
L03
L04
L04WB
N04C
L04
L04WB
L04
L04
L04
L04
L05
L05WB
N05C
L05
L05WB
L05
L05
L05
L06
L06WB
L06
L06WB
L06
L06
L07
L07WB
N07C
L07
L07WB
L07
L07
L07
L08
L08WB
N08C
L08
L08WB
L08
L22
L23
L24
L03
L03WB
N03C
L04
L04WB
L05
L06
L21
L22
L23
L24
L04
L04WB
N04C
L05
L05WB
L06
L07
L08
L22
L23
L24
L05
L05WB
N05C
L06
L06WB
L07
L08
L09
L24
L06
L06WB
N06C
L07
L07WB
L08
L09
L10
L07
L07WB
L08
L08WB
L09
L10
L08
L08WB
N08C
L09
L09WB
L10
L11
L12
L09
L09WB
N09C
L10
L10WB
L11
0.0661
0.0819
0.1047
0.2817
0.2034
1.681e−14
0.1540
0.0777
0.1042
0.0778
0.0503
0.0584
0.0691
0.0832
0.2838
0.2034
1.690e−14
0.1553
0.0777
0.1051
0.0550
0.0504
0.0514
0.0585
0.0670
0.2816
0.2034
1.695e−14
0.1555
0.0777
0.0679
0.0596
0.0525
0.0542
0.2840
0.2034
1.698e−14
0.0843
0.0563
0.0706
0.0597
0.0505
0.1065
0.1166
0.0843
0.0563
0.0681
0.0550
0.2837
0.2034
1.663e−14
0.1556
0.0777
0.1047
0.0781
0.0625
0.2826
0.2034
1.677e−14
0.1556
0.0777
0.1052
http://onsemi.com
40
AND8009/D
K0812
K0910
K0910WB
C0910
K0911
K0911WB
K0912
K0913
K1011
K1011WB
C1011
K1012
K1012WB
K1013
K1014
K1015
K1112
K1112WB
C1112
K1113
K1113WB
K1114
K1115
K1213
K1213WB
K1214
K1214WB
K1215
K1216
K1314
K1314WB
C1314
K1315
K1315WB
K1316
K1317
K1318
K1415
K1415WB
C1415
K1416
K1416WB
K1417
K1418
K1516
K1516WB
C1516
K1517
K1517WB
K1518
K1519
K1617
K1617WB
C1617
K1618
K1618WB
K1619
K1620
K1621
K1718
K1718WB
C1718
L08
L09
L09WB
N09C
L09
L09WB
L09
L09
L10
L10WB
N10C
L10
L10WB
L10
L10
L10
L11
L11WB
N11C
L11
L11WB
L11
L11
L12
L12WB
L12
L12WB
L12
L12
L13
L13WB
N13C
L13
L13WB
L13
L13
L13
L14
L14WB
N14C
L14
L14WB
L14
L14
L15
L15WB
N15C
L15
L15WB
L15
L15
L16
L16WB
N16C
L16
L16WB
L16
L16
L16
L17
L17WB
N17C
L12
L10
L10WB
N10C
L11
L11WB
L12
L13
L11
L11WB
N11C
L12
L12WB
L13
L14
L15
L12
L12WB
N12C
L13
L13WB
L14
L15
L13
L13WB
L14
L14WB
L15
L16
L14
L14WB
N14C
L15
L15WB
L16
L17
L18
L15
L15WB
N15C
L16
L16WB
L17
L18
L16
L16WB
N16C
L17
L17WB
L18
L19
L17
L17WB
N17C
L18
L18WB
L19
L20
L21
L18
L18WB
N18C
0.0781
0.2843
0.2034
1.677e−14
0.1562
0.0777
0.1047
0.0546
0.2846
0.2034
1.684e−14
0.1555
0.0777
0.0674
0.0588
0.0518
0.2838
0.2034
1.695e−14
0.0836
0.0563
0.0696
0.0589
0.1064
0.1166
0.0836
0.0563
0.0674
0.0546
0.2838
0.2034
1.687e−14
0.1558
0.0777
0.1050
0.0784
0.0626
0.2849
0.2034
1.673e−14
0.1564
0.0777
0.1054
0.0780
0.2845
0.2034
1.684e−14
0.1559
0.0777
0.1047
0.0543
0.2828
0.2034
1.678e−14
0.1557
0.0777
0.0674
0.0591
0.0521
0.2843
0.2034
1.690e−14
http://onsemi.com
41
AND8009/D
K1719
L17
K1719WB L17WB
K1720
L17
K1721
L17
K1722
L17
K1819
L18
K1819WB L18WB
K1820
L18
K1820WB L18WB
K1821
L18
K1822
L18
K1920
L19
K1920WB L19WB
C1920
N19C
K1921
L19
K1921WB L19WB
K1922
L19
K1923
L19
K1924
L19
K2021
L20
K2021WB L20WB
C2021
N20C
K2022
L20
K2022WB L20WB
K2023
L20
K2024
L20
K2122
L21
K2122WB L21WB
C2122
N21C
K2123
L21
K2123WB L21WB
K2124
L21
K2223
L22
K2223WB L22WB
C2223
N22C
K2224
L22
K2224WB L22WB
K2324
L23
K2324WB L23WB
K2301WB L23WB
C2324
N23C
K2401WB L24WB
K2402WB L24WB
.ENDS PACKAGE
*
*
L19
L19WB
L20
L21
L22
L19
L19WB
L20
L20WB
L21
L22
L20
L20WB
N20C
L21
L21WB
L22
L23
L24
L21
L21WB
N21C
L22
L22WB
L23
L24
L22
L22WB
N22C
L23
L23WB
L24
L23
L23WB
N23C
L24
L24WB
L24
L24WB
L01WB
N24C
L01WB
L02WB
0.0838
0.0563
0.0702
0.0595
0.0503
0.1062
0.1166
0.0841
0.0563
0.0679
0.0549
0.2849
0.2034
1.688e−14
0.1568
0.0777
0.1059
0.0792
0.0638
0.2853
0.2034
1.689e−14
0.1589
0.0777
0.1074
0.0799
0.2877
0.2034
1.678e−14
0.1591
0.0777
0.1072
0.2878
0.2034
1.690e−14
0.1588
0.0777
0.2873
0.2034
0.0563
1.693e−14
0.1166
0.0563
http://onsemi.com
42
AND8009/D
−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−
Package: 32−TQFP
* SPICE subcircuit file of coupled transmission lines
*
* Transmission line model
*
* Conductor number−pin designation cross reference:
*
Conductor
Pin
*
1
1
*
2
2
*
3
3
*
4
4
*
5
5
*
6
6
*
7
7
*
8
8
*
9
9
*
10
10
*
11
11
*
12
12
*
13
13
*
14
14
*
15
15
*
16
16
*
17
17
*
18
18
*
19
19
*
20
20
*
21
21
*
22
22
*
23
23
*
24
24
*
25
25
*
26
26
*
27
27
*
28
28
*
29
29
*
30
30
*
31
31
*
32
32
*
* number of lumps: 1
* FASTEST APPLICABLE EDGE RATE: 0.135 ns
* Equivalent bandwidth:
2.6
GHz
* COMPRESSION OF SUBCIRCUITS PERFORMED: discard ratio is 0.050
*
**CONNECT CHIP SIDE TO N**I AND BOARD SIDE TO N**O
* ECLinPS PLUS usage requires the input nodes used in the subcircuit call
* statement(X_777) that are tied to global ports(VCC, VCCO, and VEE internal
* to the die) to have the same global names in the subcircuit call statement(X_777).
* For example, if VCC is wirebonded to pin 1, 9, 16, and 32 for a certain design, then
* N01I, N09I, N16I, and N32I should be relabeled to VCC. Again, the change needs only to
* be incorporated in the X_777 subcircuit callout statement. Since this requires a change
* to the netlist below, it is necessary for each design to have a copy of this file with
* the appropriate changes made that are required for that design.
*
R_SHORT 0 ground 0.0001
*
X_777 N01I N01O N02I N02O N03I N03O N04I N04O
+ N05I N05O N06I N06O N07I N07O N08I N08O N09I N09O
+ N10I N10O N11I N11O N12I N12O N13I N13O N14I N14O
http://onsemi.com
43
AND8009/D
+ N15I N15O N16I N16O N17I N17O N18I N18O N19I N19O
+ N20I N20O N21I N21O N22I N22O N23I N23O N24I N24O
+ N25I N25O N26I N26O N27I N27O N28I N28O N29I N29O
+ N30I N30O N31I N31O N32I N32O ground PACKAGE
*
.SUBCKT PACKAGE N01I N01O N02I N02O N03I N03O N04I N04O
+ N05I N05O N06I N06O N07I N07O N08I N08O N09I N09O
+ N10I N10O N11I N11O N12I N12O N13I N13O N14I N14O
+ N15I N15O N16I N16O N17I N17O N18I N18O N19I N19O
+ N20I N20O N21I N21O N22I N22O N23I N23O N24I N24O
+ N25I N25O N26I N26O N27I N27O N28I N28O N29I N29O
+ N30I N30O N31I N31O N32I N32O ground
*
R01WB N01I N01W 5.432e−02
L01WB N01W N01R 1.295e−09
R01 N01R N01C 1.560e−03
C01 N01C ground 2.813e−13
L01 N01C N01O 1.584e−09
R02WB N02I N02W 4.976e−02
L02WB N02W N02R 1.206e−09
R02 N02R N02C 1.330e−03
C02 N02C ground 1.308e−13
L02 N02C N02O 1.437e−09
R03WB N03I N03W 4.810e−02
L03WB N03W N03R 1.174e−09
R03 N03R N03C 1.170e−03
C03 N03C ground 1.235e−13
L03 N03C N03O 1.321e−09
R04WB N04I N04W 4.561e−02
L04WB N04W N04R 1.126e−09
R04 N04R N04C 1.100e−03
C04 N04C ground 1.207e−13
L04 N04C N04O 1.259e−09
R05WB N05I N05W 4.561e−02
L05WB N05W N05R 1.126e−09
R05 N05R N05C 1.100e−03
C05 N05C ground 1.207e−13
L05 N05C N05O 1.259e−09
R06WB N06I N06W 4.810e−02
L06WB N06W N06R 1.174e−09
R06 N06R N06C 1.170e−03
C06 N06C ground 1.235e−13
L06 N06C N06O 1.321e−09
R07WB N07I N07W 4.976e−02
L07WB N07W N07R 1.206e−09
R07 N07R N07C 1.330e−03
C07 N07C ground 1.308e−13
L07 N07C N07O 1.437e−09
R08WB N08I N08W 5.432e−02
L08WB N08W N08R 1.295e−09
R08 N08R N08C 1.560e−03
C08 N08C ground 2.813e−13
L08 N08C N08O 1.584e−09
R09WB N09I N09W 5.432e−02
L09WB N09W N09R 1.295e−09
R09 N09R N09C 1.560e−03
C09 N09C ground 2.813e−13
L09 N09C N09O 1.584e−09
R10WB N10I N10W 4.976e−02
L10WB N10W N10R 1.206e−09
R10 N10R N10C 1.330e−03
C10 N10C ground 1.308e−13
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AND8009/D
L10 N10C N10O 1.437e−09
R11WB N11I N11W 4.810e−02
L11WB N11W N11R 1.174e−09
R11 N11R N11C 1.170e−03
C11 N11C ground 1.235e−13
L11 N11C N11O 1.321e−09
R12WB N12I N12W 4.561e−02
L12WB N12W N12R 1.126e−09
R12 N12R N12C 1.100e−03
C12 N12C ground 1.207e−13
L12 N12C N12O 1.259e−09
R13WB N13I N13W 4.561e−02
L13WB N13W N13R 1.126e−09
R13 N13R N13C 1.100e−03
C13 N13C ground 1.207e−13
L13 N13C N13O 1.259e−09
R14WB N14I N14W 4.810e−02
L14WB N14W N14R 1.174e−09
R14 N14R N14C 1.170e−03
C14 N14C ground 1.235e−13
L14 N14C N14O 1.321e−09
R15WB N15I N15W 4.976e−02
L15WB N15W N15R 1.206e−09
R15 N15R N15C 1.330e−03
C15 N15C ground 1.308e−13
L15 N15C N15O 1.437e−09
R16WB N16I N16W 5.432e−02
L16WB N16W N16R 1.295e−09
R16 N16R N16C 1.560e−03
C16 N16C ground 2.813e−13
L16 N16C N16O 1.584e−09
R17WB N17I N17W 5.432e−02
L17WB N17W N17R 1.295e−09
R17 N17R N17C 1.560e−03
C17 N17C ground 2.813e−13
L17 N17C N17O 1.584e−09
R18WB N18I N18W 4.976e−02
L18WB N18W N18R 1.206e−09
R18 N18R N18C 1.330e−03
C18 N18C ground 1.308e−13
L18 N18C N18O 1.437e−09
R19WB N19I N19W 4.810e−02
L19WB N19W N19R 1.174e−09
R19 N19R N19C 1.170e−03
C19 N19C ground 1.235e−13
L19 N19C N19O 1.321e−09
R20WB N20I N20W 4.561e−02
L20WB N20W N20R 1.126e−09
R20 N20R N20C 1.100e−03
C20 N20C ground 1.207e−13
L20 N20C N20O 1.259e−09
R21WB N21I N21W 4.561e−02
L21WB N21W N21R 1.126e−09
R21 N21R N21C 1.100e−03
C21 N21C ground 1.207e−13
L21 N21C N21O 1.259e−09
R22WB N22I N22W 4.810e−02
L22WB N22W N22R 1.174e−09
R22 N22R N22C 1.170e−03
C22 N22C ground 1.235e−13
L22 N22C N22O 1.321e−09
R23WB N23I N23W 4.976e−02
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AND8009/D
L23WB N23W N23R 1.206e−09
R23 N23R N23C 1.330e−03
C23 N23C ground 1.308e−13
L23 N23C N23O 1.437e−09
R24WB N24I N24W 5.432e−02
L24WB N24W N24R 1.295e−09
R24 N24R N24C 1.560e−03
C24 N24C ground 2.813e−13
L24 N24C N24O 1.584e−09
R25WB N25I N25W 5.432e−02
L25WB N25W N25R 1.295e−09
R25 N25R N25C 1.560e−03
C25 N25C ground 2.813e−13
L25 N25C N25O 1.584e−09
R26WB N26I N26W 4.976e−02
L26WB N26W N26R 1.206e−09
R26 N26R N26C 1.330e−03
C26 N26C ground 1.308e−13
L26 N26C N26O 1.437e−09
R27WB N27I N27W 4.810e−02
L27WB N27W N27R 1.174e−09
R27 N27R N27C 1.170e−03
C27 N27C ground 1.235e−13
L27 N27C N27O 1.321e−09
R28WB N28I N28W 4.561e−02
L28WB N28W N28R 1.126e−09
R28 N28R N28C 1.100e−03
C28 N28C ground 1.207e−13
L28 N28C N28O 1.259e−09
R29WB N29I N29W 4.561e−02
L29WB N29W N29R 1.126e−09
R29 N29R N29C 1.100e−03
C29 N29C ground 1.207e−13
L29 N29C N29O 1.259e−09
R30WB N30I N30W 4.810e−02
L30WB N30W N30R 1.174e−09
R30 N30R N30C 1.170e−03
C30 N30C ground 1.235e−13
L30 N30C N30O 1.321e−09
R31WB N31I N31W 4.976e−02
L31WB N31W N31R 1.206e−09
R31 N31R N31C 1.330e−03
C31 N31C ground 1.308e−13
L31 N31C N31O 1.437e−09
R32WB N32I N32W 5.432e−02
L32WB N32W N32R 1.295e−09
R32 N32R N32C 1.560e−03
C32 N32C ground 2.813e−13
L32 N32C N32O 1.584e−09
K0102 L01 L02 0.3413
K0102WB L01WB L02WB 0.2544
C0102 N01C N02C 1.426e−13
K0103 L01 L03 0.1426
K0103WB L01WB L03WB 0.1061
K0104 L01 L04 0.0720
K0104WB L01WB L04WB 0.0674
K0130 L01 L30 0.0607
K0131 L01 L31 0.1053
K0131WB L01WB L31WB 0.0799
K0132 L01 L32 0.1899
K0132WB L01WB L32WB 0.1729
K0203 L02 L03 0.3211
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K0203WB L02WB L03WB 0.2628
C0203 N02C N03C 1.205e−13
K0204 L02 L04 0.1333
K0204WB L02WB L04WB 0.1162
K0205 L02 L05 0.0701
K0205WB L02WB L05WB 0.0697
K0231 L02 L31 0.0706
K0232 L02 L32 0.1053
K0232WB L02WB L32WB 0.0799
K0304 L03 L04 0.3070
K0304WB L03WB L04WB 0.2809
C0304 N03C N04C 1.038e−13
K0305 L03 L05 0.1301
K0305WB L03WB L05WB 0.1200
K0306 L03 L06 0.0683
K0306WB L03WB L06WB 0.0719
K0332 L03 L32 0.0607
K0405 L04 L05 0.3070
K0405WB L04WB L05WB 0.2717
C0405 N04C N05C 1.041e−13
K0406 L04 L06 0.1301
K0406WB L04WB L06WB 0.1200
K0407 L04 L07 0.0701
K0407WB L04WB L07WB 0.0697
K0506 L05 L06 0.3070
K0506WB L05WB L06WB 0.2809
C0506 N05C N06C 1.038e−13
K0507 L05 L07 0.1333
K0507WB L05WB L07WB 0.1162
K0508 L05 L08 0.0720
K0508WB L05WB L08WB 0.0674
K0607 L06 L07 0.3211
K0607WB L06WB L07WB 0.2628
C0607 N06C N07C 1.205e−13
K0608 L06 L08 0.1426
K0608WB L06WB L08WB 0.1061
K0609 L06 L09 0.0607
K0708 L07 L08 0.3413
K0708WB L07WB L08WB 0.2544
C0708 N07C N08C 1.426e−13
K0709 L07 L09 0.1053
K0709WB L07WB L09WB 0.0799
K0710 L07 L10 0.0706
K0809 L08 L09 0.1899
K0809WB L08WB L09WB 0.1729
K0810 L08 L10 0.1053
K0810WB L08WB L10WB 0.0799
K0811 L08 L11 0.0607
K0910 L09 L10 0.3413
K0910WB L09WB L10WB 0.2544
C0910 N09C N10C 1.426e−13
K0911 L09 L11 0.1426
K0911WB L09WB L11WB 0.1061
K0912 L09 L12 0.0720
K0912WB L09WB L12WB 0.0674
K1011 L10 L11 0.3211
K1011WB L10WB L11WB 0.2628
C1011 N10C N11C 1.205e−13
K1012 L10 L12 0.1333
K1012WB L10WB L12WB 0.1162
K1013 L10 L13 0.0701
K1013WB L10WB L13WB 0.0697
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AND8009/D
K1112 L11 L12 0.3070
K1112WB L11WB L12WB 0.2809
C1112 N11C N12C 1.038e−13
K1113 L11 L13 0.1301
K1113WB L11WB L13WB 0.1200
K1114 L11 L14 0.0683
K1114WB L11WB L14WB 0.0719
K1213 L12 L13 0.3070
K1213WB L12WB L13WB 0.2717
C1213 N12C N13C 1.041e−13
K1214 L12 L14 0.1301
K1214WB L12WB L14WB 0.1200
K1215 L12 L15 0.0701
K1215WB L12WB L15WB 0.0697
K1314 L13 L14 0.3070
K1314WB L13WB L14WB 0.2809
C1314 N13C N14C 1.038e−13
K1315 L13 L15 0.1333
K1315WB L13WB L15WB 0.1162
K1316 L13 L16 0.0720
K1316WB L13WB L16WB 0.0674
K1415 L14 L15 0.3211
K1415WB L14WB L15WB 0.2628
C1415 N14C N15C 1.205e−13
K1416 L14 L16 0.1426
K1416WB L14WB L16WB 0.1061
K1417 L14 L17 0.0607
K1516 L15 L16 0.3413
K1516WB L15WB L16WB 0.2544
C1516 N15C N16C 1.426e−13
K1517 L15 L17 0.1053
K1517WB L15WB L17WB 0.0799
K1518 L15 L18 0.0706
K1617 L16 L17 0.1899
K1617WB L16WB L17WB 0.1729
K1618 L16 L18 0.1053
K1618WB L16WB L18WB 0.0799
K1619 L16 L19 0.0607
K1718 L17 L18 0.3413
K1718WB L17WB L18WB 0.2544
C1718 N17C N18C 1.426e−13
K1719 L17 L19 0.1426
K1719WB L17WB L19WB 0.1061
K1720 L17 L20 0.0720
K1720WB L17WB L20WB 0.0674
K1819 L18 L19 0.3211
K1819WB L18WB L19WB 0.2628
C1819 N18C N19C 1.205e−13
K1820 L18 L20 0.1333
K1820WB L18WB L20WB 0.1162
K1821 L18 L21 0.0701
K1821WB L18WB L21WB 0.0697
K1920 L19 L20 0.3070
K1920WB L19WB L20WB 0.2809
C1920 N19C N20C 1.038e−13
K1921 L19 L21 0.1301
K1921WB L19WB L21WB 0.1200
K1922 L19 L22 0.0683
K1922WB L19WB L22WB 0.0719
K2021 L20 L21 0.3070
K2021WB L20WB L21WB 0.2717
C2021 N20C N21C 1.041e−13
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K2022 L20 L22 0.1301
K2022WB L20WB L22WB 0.1200
K2023 L20 L23 0.0701
K2023WB L20WB L23WB 0.0697
K2122 L21 L22 0.3070
K2122WB L21WB L22WB 0.2809
C2122 N21C N22C 1.038e−13
K2123 L21 L23 0.1333
K2123WB L21WB L23WB 0.1162
K2124 L21 L24 0.0720
K2124WB L21WB L24WB 0.0674
K2223 L22 L23 0.3211
K2223WB L22WB L23WB 0.2628
C2223 N22C N23C 1.205e−13
K2224 L22 L24 0.1426
K2224WB L22WB L24WB 0.1061
K2225 L22 L25 0.0607
K2324 L23 L24 0.3413
K2324WB L23WB L24WB 0.2544
C2324 N23C N24C 1.426e−13
K2325 L23 L25 0.1053
K2325WB L23WB L25WB 0.0799
K2326 L23 L26 0.0706
K2425 L24 L25 0.1899
K2425WB L24WB L25WB 0.1729
K2426 L24 L26 0.1053
K2426WB L24WB L26WB 0.0799
K2427 L24 L27 0.0607
K2526 L25 L26 0.3413
K2526WB L25WB L26WB 0.2544
C2526 N25C N26C 1.426e−13
K2527 L25 L27 0.1426
K2527WB L25WB L27WB 0.1061
K2528 L25 L28 0.0720
K2528WB L25WB L28WB 0.0674
K2627 L26 L27 0.3211
K2627WB L26WB L27WB 0.2628
C2627 N26C N27C 1.205e−13
K2628 L26 L28 0.1333
K2628WB L26WB L28WB 0.1162
K2629 L26 L29 0.0701
K2629WB L26WB L29WB 0.0697
K2728 L27 L28 0.3070
K2728WB L27WB L28WB 0.2809
C2728 N27C N28C 1.038e−13
K2729 L27 L29 0.1301
K2729WB L27WB L29WB 0.1200
K2730 L27 L30 0.0683
K2730WB L27WB L30WB 0.0719
K2829 L28 L29 0.3070
K2829WB L28WB L29WB 0.2717
C2829 N28C N29C 1.041e−13
K2830 L28 L30 0.1301
K2830WB L28WB L30WB 0.1200
K2831 L28 L31 0.0701
K2831WB L28WB L31WB 0.0697
K2930 L29 L30 0.3070
K2930WB L29WB L30WB 0.2809
C2930 N29C N30C 1.038e−13
K2931 L29 L31 0.1333
K2931WB L29WB L31WB 0.1162
K2932 L29 L32 0.0720
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K2932WB L29WB L32WB 0.0674
K3031 L30 L31 0.3211
K3031WB L30WB L31WB 0.2628
C3031 N30C N31C 1.205e−13
K3032 L30 L32 0.1426
K3032WB L30WB L32WB 0.1061
K3132 L31 L32 0.3413
K3132WB L31WB L32WB 0.2544
C3132 N31C N32C 1.426e−13
.ENDS PACKAGE
−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−−
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Package: LQFP−52
***********************************************************
* Note:
* 1. The model assume ground plane is 15 mil below package
***********************************************************
* Transmission line model
*
* Package: 52 pin LQFP
* Model for 52 pins
*
* Conductor number−pin designation cross reference:
*
*
Conductor
Pin
*
1
1
*
2
2
*
3
3
*
4
4
*
5
5
*
6
6
*
7
7
*
8
8
*
9
9
*
10
10
*
11
11
*
12
12
*
13
13
*
14
14
*
15
15
*
16
16
*
17
17
*
18
18
*
19
19
*
20
20
*
21
21
*
22
22
*
23
23
*
24
24
*
25
25
*
26
26
*
27
27
*
28
28
*
29
29
*
30
30
*
31
31
*
32
32
*
33
33
*
34
34
*
35
35
*
36
36
*
37
37
*
38
38
*
39
39
*
40
40
*
41
41
*
42
42
*
43
43
*
44
44
*
45
45
*
46
46
*
47
47
*
48
48
*
49
49
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AND8009/D
*
50
50
*
51
51
*
52
52
*
* number of lumps: 1
* FASTEST APPLICABLE EDGE RATE: 0.160 ns
* COMPRESSION OF SUBCIRCUITS PERFORMED: discard ratio is 0.050
*
.SUBCKT PACKAGE N01I N01O N02I N02O N03I N03O N04I N04O
+ N05I N05O N06I N06O N07I N07O N08I N08O N09I N09O
+ N10I N10O N11I N11O N12I N12O N13I N13O N14I N14O
+ N15I N15O N16I N16O N17I N17O N18I N18O N19I N19O
+ N20I N20O N21I N21O N22I N22O N23I N23O N24I N24O
+ N25I N25O N26I N26O N27I N27O N28I N28O N29I N29O
+ N30I N30O N31I N31O N32I N32O N33I N33O N34I N34O
+ N35I N35O N36I N36O N37I N37O N38I N38O N39I N39O
+ N40I N40O N41I N41O N42I N42O N43I N43O N44I N44O
+ N45I N45O N46I N46O N47I N47O N48I N48O N49I N49O
+ N50I N50O N51I N51O N52I N52O BD_GND
R01WB N01I
N01W
8.625e−02
L01WB N01W
N01R
1.931e−09
R01
N01R
N01M
1.650e−02
L01l
N01M
N01C
1.113e−09
C01
N01C
BD_GND 2.107e−13
L01r
N01C
N01O
1.113e−09
R02WB N02I
N02W
8.376e−02
L02WB N02W
N02R
1.880e−09
R02
N02R
N02M
1.680e−02
L02l
N02M
N02C
1.063e−09
C02
N02C
BD_GND 6.598e−14
L02r
N02C
N02O
1.063e−09
R03WB N03I
N03W
7.878e−02
L03WB N03W
N03R
1.780e−09
R03
N03R
N03M
1.570e−02
L03l
N03M
N03C
9.940e−10
C03
N03C
BD_GND 5.694e−14
L03r
N03C
N03O
9.940e−10
R04WB N04I
N04W
7.630e−02
L04WB N04W
N04R
1.730e−09
R04
N04R
N04M
1.460e−02
L04l
N04M
N04C
9.368e−10
C04
N04C
BD_GND 5.233e−14
L04r
N04C
N04O
9.368e−10
R05WB N05I
N05W
7.422e−02
L05WB N05W
N05R
1.688e−09
R05
N05R
N05M
1.380e−02
L05l
N05M
N05C
8.830e−10
C05
N05C
BD_GND 4.810e−14
L05r
N05C
N05O
8.830e−10
R06WB N06I
N06W
7.381e−02
L06WB N06W
N06R
1.680e−09
R06
N06R
N06M
1.330e−02
L06l
N06M
N06C
8.557e−10
C06
N06C
BD_GND 4.665e−14
L06r
N06C
N06O
8.557e−10
R07WB N07I
N07W
7.298e−02
L07WB N07W
N07R
1.663e−09
R07
N07R
N07M
1.290e−02
L07l
N07M
N07C
8.187e−10
C07
N07C
BD_GND 4.714e−14
L07r
N07C
N07O
8.187e−10
R08WB N08I
N08W
7.464e−02
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AND8009/D
L08WB
R08
L08l
C08
L08r
R09WB
L09WB
R09
L09l
C09
L09r
R10WB
L10WB
R10
L10l
C10
L10r
R11WB
L11WB
R11
L11l
C11
L11r
R12WB
L12WB
R12
L12l
C12
L12r
R13WB
L13WB
R13
L13l
C13
L13r
R14WB
L14WB
R14
L14l
C14
L14r
R15WB
L15WB
R15
L15l
C15
L15r
R16WB
L16WB
R16
L16l
C16
L16r
R17WB
L17WB
R17
L17l
C17
L17r
R18WB
L18WB
R18
N08W
N08R
N08M
N08C
N08C
N09I
N09W
N09R
N09M
N09C
N09C
N10I
N10W
N10R
N10M
N10C
N10C
N11I
N11W
N11R
N11M
N11C
N11C
N12I
N12W
N12R
N12M
N12C
N12C
N13I
N13W
N13R
N13M
N13C
N13C
N14I
N14W
N14R
N14M
N14C
N14C
N15I
N15W
N15R
N15M
N15C
N15C
N16I
N16W
N16R
N16M
N16C
N16C
N17I
N17W
N17R
N17M
N17C
N17C
N18I
N18W
N18R
N08R
N08M
N08C
BD_GND
N08O
N09W
N09R
N09M
N09C
BD_GND
N09O
N10W
N10R
N10M
N10C
BD_GND
N10O
N11W
N11R
N11M
N11C
BD_GND
N11O
N12W
N12R
N12M
N12C
BD_GND
N12O
N13W
N13R
N13M
N13C
BD_GND
N13O
N14W
N14R
N14M
N14C
BD_GND
N14O
N15W
N15R
N15M
N15C
BD_GND
N15O
N16W
N16R
N16M
N16C
BD_GND
N16O
N17W
N17R
N17M
N17C
BD_GND
N17O
N18W
N18R
N18M
1.696e−09
1.330e−02
8.557e−10
4.665e−14
8.557e−10
7.422e−02
1.688e−09
1.380e−02
8.830e−10
4.810e−14
8.830e−10
7.630e−02
1.730e−09
1.460e−02
9.368e−10
5.233e−14
9.368e−10
7.878e−02
1.780e−09
1.570e−02
9.940e−10
5.694e−14
9.940e−10
8.376e−02
1.880e−09
1.680e−02
1.063e−09
6.598e−14
1.063e−09
8.998e−02
2.008e−09
1.650e−02
1.113e−09
2.107e−13
1.113e−09
8.625e−02
1.931e−09
1.650e−02
1.113e−09
2.107e−13
1.113e−09
8.086e−02
1.822e−09
1.680e−02
1.063e−09
6.598e−14
1.063e−09
7.671e−02
1.738e−09
1.570e−02
9.940e−10
5.694e−14
9.940e−10
7.422e−02
1.688e−09
1.460e−02
9.368e−10
5.233e−14
9.368e−10
7.298e−02
1.663e−09
1.380e−02
http://onsemi.com
53
AND8009/D
L18l
C18
L18r
R19WB
L19WB
R19
L19l
C19
L19r
R20WB
L20WB
R20
L20l
C20
L20r
R21WB
L21WB
R21
L21l
C21
L21r
R22WB
L22WB
R22
L22l
C22
L22r
R23WB
L23WB
R23
L23l
C23
L23r
R24WB
L24WB
R24
L24l
C24
L24r
R25WB
L25WB
R25
L25l
C25
L25r
R26WB
L26WB
R26
L26l
C26
L26r
R27WB
L27WB
R27
L27l
C27
L27r
R28WB
L28WB
R28
L28l
C28
N18M
N18C
N18C
N19I
N19W
N19R
N19M
N19C
N19C
N20I
N20W
N20R
N20M
N20C
N20C
N21I
N21W
N21R
N21M
N21C
N21C
N22I
N22W
N22R
N22M
N22C
N22C
N23I
N23W
N23R
N23M
N23C
N23C
N24I
N24W
N24R
N24M
N24C
N24C
N25I
N25W
N25R
N25M
N25C
N25C
N26I
N26W
N26R
N26M
N26C
N26C
N27I
N27W
N27R
N27M
N27C
N27C
N28I
N28W
N28R
N28M
N28C
N18C
BD_GND
N18O
N19W
N19R
N19M
N19C
BD_GND
N19O
N20W
N20R
N20M
N20C
BD_GND
N20O
N21W
N21R
N21M
N21C
BD_GND
N21O
N22W
N22R
N22M
N22C
BD_GND
N22O
N23W
N23R
N23M
N23C
BD_GND
N23O
N24W
N24R
N24M
N24C
BD_GND
N24O
N25W
N25R
N25M
N25C
BD_GND
N25O
N26W
N26R
N26M
N26C
BD_GND
N26O
N27W
N27R
N27M
N27C
BD_GND
N27O
N28W
N28R
N28M
N28C
BD_GND
8.830e−10
4.810e−14
8.830e−10
7.381e−02
1.680e−09
1.330e−02
8.557e−10
4.665e−14
8.557e−10
7.298e−02
1.663e−09
1.290e−02
8.187e−10
4.714e−14
8.187e−10
7.464e−02
1.696e−09
1.330e−02
8.557e−10
4.665e−14
8.557e−10
7.588e−02
1.721e−09
1.380e−02
8.830e−10
4.810e−14
8.830e−10
7.630e−02
1.730e−09
1.460e−02
9.368e−10
5.233e−14
9.368e−10
7.878e−02
1.780e−09
1.570e−02
9.940e−10
5.694e−14
9.940e−10
8.376e−02
1.880e−09
1.680e−02
1.063e−09
6.598e−14
1.063e−09
8.998e−02
2.008e−09
1.650e−02
1.113e−09
2.107e−13
1.113e−09
8.625e−02
1.931e−09
1.650e−02
1.113e−09
2.107e−13
1.113e−09
8.086e−02
1.822e−09
1.680e−02
1.063e−09
6.598e−14
http://onsemi.com
54
AND8009/D
L28r
R29WB
L29WB
R29
L29l
C29
L29r
R30WB
L30WB
R30
L30l
C30
L30r
R31WB
L31WB
R31
L31l
C31
L31r
R32WB
L32WB
R32
L32l
C32
L32r
R33WB
L33WB
R33
L33l
C33
L33r
R34WB
L34WB
R34
L34l
C34
L34r
R35WB
L35WB
R35
L35l
C35
L35r
R36WB
L36WB
R36
L36l
C36
L36r
R37WB
L37WB
R37
L37l
C37
L37r
R38WB
L38WB
R38
L38l
C38
L38r
R39WB
N28C
N29I
N29W
N29R
N29M
N29C
N29C
N30I
N30W
N30R
N30M
N30C
N30C
N31I
N31W
N31R
N31M
N31C
N31C
N32I
N32W
N32R
N32M
N32C
N32C
N33I
N33W
N33R
N33M
N33C
N33C
N34I
N34W
N34R
N34M
N34C
N34C
N35I
N35W
N35R
N35M
N35C
N35C
N36I
N36W
N36R
N36M
N36C
N36C
N37I
N37W
N37R
N37M
N37C
N37C
N38I
N38W
N38R
N38M
N38C
N38C
N39I
N28O
N29W
N29R
N29M
N29C
BD_GND
N29O
N30W
N30R
N30M
N30C
BD_GND
N30O
N31W
N31R
N31M
N31C
BD_GND
N31O
N32W
N32R
N32M
N32C
BD_GND
N32O
N33W
N33R
N33M
N33C
BD_GND
N33O
N34W
N34R
N34M
N34C
BD_GND
N34O
N35W
N35R
N35M
N35C
BD_GND
N35O
N36W
N36R
N36M
N36C
BD_GND
N36O
N37W
N37R
N37M
N37C
BD_GND
N37O
N38W
N38R
N38M
N38C
BD_GND
N38O
N39W
1.063e−09
7.671e−02
1.738e−09
1.570e−02
9.940e−10
5.694e−14
9.940e−10
7.422e−02
1.688e−09
1.460e−02
9.368e−10
5.233e−14
9.368e−10
7.298e−02
1.663e−09
1.380e−02
8.830e−10
4.810e−14
8.830e−10
7.381e−02
1.680e−09
1.330e−02
8.557e−10
4.665e−14
8.557e−10
7.298e−02
1.663e−09
1.290e−02
8.187e−10
4.714e−14
8.187e−10
7.464e−02
1.696e−09
1.330e−02
8.557e−10
4.665e−14
8.557e−10
7.588e−02
1.721e−09
1.380e−02
8.830e−10
4.810e−14
8.830e−10
7.630e−02
1.730e−09
1.460e−02
9.368e−10
5.233e−14
9.368e−10
7.878e−02
1.780e−09
1.570e−02
9.940e−10
5.694e−14
9.940e−10
8.376e−02
1.880e−09
1.680e−02
1.063e−09
6.598e−14
1.063e−09
8.998e−02
http://onsemi.com
55
AND8009/D
L39WB
R39
L39l
C39
L39r
R40WB
L40WB
R40
L40l
C40
L40r
R41WB
L41WB
R41
L41l
C41
L41r
R42WB
L42WB
R42
L42l
C42
L42r
R43WB
L43WB
R43
L43l
C43
L43r
R44WB
L44WB
R44
L44l
C44
L44r
R45WB
L45WB
R45
L45l
C45
L45r
R46WB
L46WB
R46
L46l
C46
L46r
R47WB
L47WB
R47
L47l
C47
L47r
R48WB
L48WB
R48
L48l
C48
L48r
R49WB
L49WB
R49
N39W
N39R
N39M
N39C
N39C
N40I
N40W
N40R
N40M
N40C
N40C
N41I
N41W
N41R
N41M
N41C
N41C
N42I
N42W
N42R
N42M
N42C
N42C
N43I
N43W
N43R
N43M
N43C
N43C
N44I
N44W
N44R
N44M
N44C
N44C
N45I
N45W
N45R
N45M
N45C
N45C
N46I
N46W
N46R
N46M
N46C
N46C
N47I
N47W
N47R
N47M
N47C
N47C
N48I
N48W
N48R
N48M
N48C
N48C
N49I
N49W
N49R
N39R
N39M
N39C
BD_GND
N39O
N40W
N40R
N40M
N40C
BD_GND
N40O
N41W
N41R
N41M
N41C
BD_GND
N41O
N42W
N42R
N42M
N42C
BD_GND
N42O
N43W
N43R
N43M
N43C
BD_GND
N43O
N44W
N44R
N44M
N44C
BD_GND
N44O
N45W
N45R
N45M
N45C
BD_GND
N45O
N46W
N46R
N46M
N46C
BD_GND
N46O
N47W
N47R
N47M
N47C
BD_GND
N47O
N48W
N48R
N48M
N48C
BD_GND
N48O
N49W
N49R
N49M
2.008e−09
1.650e−02
1.113e−09
2.107e−13
1.113e−09
8.625e−02
1.931e−09
1.650e−02
1.113e−09
2.107e−13
1.113e−09
8.086e−02
1.822e−09
1.680e−02
1.063e−09
6.598e−14
1.063e−09
7.671e−02
1.738e−09
1.570e−02
9.940e−10
5.694e−14
9.940e−10
7.422e−02
1.688e−09
1.460e−02
9.368e−10
5.233e−14
9.368e−10
7.298e−02
1.663e−09
1.380e−02
8.830e−10
4.810e−14
8.830e−10
7.381e−02
1.680e−09
1.330e−02
8.557e−10
4.665e−14
8.557e−10
7.298e−02
1.663e−09
1.290e−02
8.187e−10
4.714e−14
8.187e−10
7.464e−02
1.696e−09
1.330e−02
8.557e−10
4.665e−14
8.557e−10
7.588e−02
1.721e−09
1.380e−02
8.830e−10
4.810e−14
8.830e−10
7.630e−02
1.730e−09
1.460e−02
http://onsemi.com
56
AND8009/D
L49l
C49
L49r
R50WB
L50WB
R50
L50l
C50
L50r
R51WB
L51WB
R51
L51l
C51
L51r
R52WB
L52WB
R52
L52l
C52
L52r
.ENDS
*
*
N49M
N49C
N49C
BD_GND
N49C
N49O
N50I
N50W
N50W
N50R
N50R
N50M
N50M
N50C
N50C
BD_GND
N50C
N50O
N51I
N51W
N51W
N51R
N51R
N51M
N51M
N51C
N51C
BD_GND
N51C
N51O
N52I
N52W
N52W
N52R
N52R
N52M
N52M
N52C
N52C
BD_GND
N52C
N52O
PACKAGE
9.368e−10
5.233e−14
9.368e−10
7.878e−02
1.780e−09
1.570e−02
9.940e−10
5.694e−14
9.940e−10
8.376e−02
1.880e−09
1.680e−02
1.063e−09
6.598e−14
1.063e−09
8.998e−02
2.008e−09
1.650e−02
1.113e−09
2.107e−13
1.113e−09
http://onsemi.com
57
AND8009/D
Package: LQFP−64
***********************************************************
* Note:
* 1. The model assume ground plane is 15 mil below package
***********************************************************
* Transmission line model
*
* Package: 64 pins LQFP
* Model for 64 pins
*
*
* Conductor number−pin designation cross reference:
*
*
Conductor
Pin
*
1
1
*
2
2
*
3
3
*
4
4
*
5
5
*
6
6
*
7
7
*
8
8
*
9
9
*
10
10
*
11
11
*
12
12
*
13
13
*
14
14
*
15
15
*
16
16
*
17
17
*
18
18
*
19
19
*
20
20
*
21
21
*
22
22
*
23
23
*
24
24
*
25
25
*
26
26
*
27
27
*
28
28
*
29
29
*
30
30
*
31
31
*
32
32
*
33
33
*
34
34
*
35
35
*
36
36
*
37
37
*
38
38
*
39
39
*
40
40
*
41
41
*
42
42
*
43
43
*
44
44
*
45
45
*
46
46
*
47
47
*
48
48
http://onsemi.com
58
AND8009/D
*
49
49
*
50
50
*
51
51
*
52
52
*
53
53
*
54
54
*
55
55
*
56
56
*
57
57
*
58
58
*
59
59
*
60
60
*
61
61
*
62
62
*
63
63
*
64
64
*
* number of lumps:
1
* FASTEST APPLICABLE EDGE RATE:
0.153 ns
* COMPRESSION OF SUBCIRCUITS PERFORMED: discard ratio is 0.050
*
.SUBCKT PACKAGE N01I N01O N02I N02O N03I N03O N04I N04O
+ N05I N05O N06I N06O N07I N07O N08I N08O N09I N09O
+ N10I N10O N11I N11O N12I N12O N13I N13O N14I N14O
+ N15I N15O N16I N16O N17I N17O N18I N18O N19I N19O
+ N20I N20O N21I N21O N22I N22O N23I N23O N24I N24O
+ N25I N25O N26I N26O N27I N27O N28I N28O N29I N29O
+ N30I N30O N31I N31O N32I N32O N33I N33O N34I N34O
+ N35I N35O N36I N36O N37I N37O N38I N38O N39I N39O
+ N40I N40O N41I N41O N42I N42O N43I N43O N44I N44O
+ N45I N45O N46I N46O N47I N47O N48I N48O N49I N49O
+ N50I N50O N51I N51O N52I N52O N53I N53O N54I N54O
+ N55I N55O N56I N56O N57I N57O N58I N58O N59I N59O
+ N60I N60O N61I N61O N62I N62O N63I N63O N64I N64O VEE_EXT
R01WB
N01I
N01W
1.053e−01
L01WB
N01W
N01R
2.326e−09
R01
N01R
N01C
1.650e−02
C01
N01C
VEE_EXT 2.653e−13
L01
N01C
N01O
1.921e−09
R02WB
N02I
N02W
9.827e−02
L02WB
N02W
N02R
2.179e−09
R02
N02R
N02C
1.690e−02
C02
N02C
VEE_EXT 1.034e−13
L02
N02C
N02O
1.801e−09
R03WB
N03I
N03W
9.288e−02
L03WB
N03W
N03R
2.067e−09
R03
N03R
N03C
1.660e−02
C03
N03C
VEE_EXT 8.350e−14
L03
N03C
N03O
1.765e−09
R04WB
N04I
N04W
8.874e−02
L04WB
N04W
N04R
1.982e−09
R04
N04R
N04C
1.600e−02
C04
N04C
VEE_EXT 8.115e−14
L04
N04C
N04O
1.705e−09
R05WB
N05I
N05W
8.708e−02
L05WB
N05W
N05R
1.948e−09
R05
N05R
N05C
1.560e−02
C05
N05C
VEE_EXT 7.954e−14
L05
N05C
N05O
1.650e−09
R06WB
N06I
N06W
8.583e−02
L06WB
N06W
N06R
1.923e−09
R06
N06R
N06C
1.520e−02
http://onsemi.com
59
AND8009/D
C06
L06
R07WB
L07WB
R07
C07
L07
R08WB
L08WB
R08
C08
L08
R09WB
L09WB
R09
C09
L09
R10WB
L10WB
R10
C10
L10
R11WB
L11WB
R11
C11
L11
R12WB
L12WB
R12
C12
L12
R13WB
L13WB
R13
C13
L13
R14WB
L14WB
R14
C14
L14
R15WB
L15WB
R15
C15
L15
R16WB
L16WB
R16
C16
L16
R17WB
L17WB
R17
C17
L17
R18WB
L18WB
R18
C18
L18
N06C
N06C
N07I
N07W
N07R
N07C
N07C
N08I
N08W
N08R
N08C
N08C
N09I
N09W
N09R
N09C
N09C
N10I
N10W
N10R
N10C
N10C
N11I
N11W
N11R
N11C
N11C
N12I
N12W
N12R
N12C
N12C
N13I
N13W
N13R
N13C
N13C
N14I
N14W
N14R
N14C
N14C
N15I
N15W
N15R
N15C
N15C
N16I
N16W
N16R
N16C
N16C
N17I
N17W
N17R
N17C
N17C
N18I
N18W
N18R
N18C
N18C
VEE_EXT
N06O
N07W
N07R
N07C
VEE_EXT
N07O
N08W
N08R
N08C
VEE_EXT
N08O
N09W
N09R
N09C
VEE_EXT
N09O
N10W
N10R
N10C
VEE_EXT
N10O
N11W
N11R
N11C
VEE_EXT
N11O
N12W
N12R
N12C
VEE_EXT
N12O
N13W
N13R
N13C
VEE_EXT
N13O
N14W
N14R
N14C
VEE_EXT
N14O
N15W
N15R
N15C
VEE_EXT
N15O
N16W
N16R
N16C
VEE_EXT
N16O
N17W
N17R
N17C
VEE_EXT
N17O
N18W
N18R
N18C
VEE_EXT
N18O
7.774e−14
1.613e−09
8.500e−02
1.906e−09
1.470e−02
7.184e−14
1.550e−09
8.583e−02
1.923e−09
1.420e−02
7.198e−14
1.566e−09
8.583e−02
1.923e−09
1.420e−02
7.198e−14
1.566e−09
8.500e−02
1.906e−09
1.470e−02
7.184e−14
1.550e−09
8.583e−02
1.923e−09
1.520e−02
7.774e−14
1.613e−09
8.708e−02
1.948e−09
1.560e−02
7.954e−14
1.650e−09
8.874e−02
1.982e−09
1.600e−02
8.115e−14
1.705e−09
9.288e−02
2.067e−09
1.660e−02
8.350e−14
1.765e−09
9.827e−02
2.179e−09
1.690e−02
1.034e−13
1.801e−09
1.053e−01
2.326e−09
1.650e−02
2.653e−13
1.921e−09
1.053e−01
2.326e−09
1.650e−02
2.653e−13
1.921e−09
9.827e−02
2.179e−09
1.690e−02
1.034e−13
1.801e−09
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60
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R19WB
L19WB
R19
C19
L19
R20WB
L20WB
R20
C20
L20
R21WB
L21WB
R21
C21
L21
R22WB
L22WB
R22
C22
L22
R23WB
L23WB
R23
C23
L23
R24WB
L24WB
R24
C24
L24
R25WB
L25WB
R25
C25
L25
R26WB
L26WB
R26
C26
L26
R27WB
L27WB
R27
C27
L27
R28WB
L28WB
R28
C28
L28
R29WB
L29WB
R29
C29
L29
R30WB
L30WB
R30
C30
L30
R31WB
L31WB
N19I
N19W
N19R
N19C
N19C
N20I
N20W
N20R
N20C
N20C
N21I
N21W
N21R
N21C
N21C
N22I
N22W
N22R
N22C
N22C
N23I
N23W
N23R
N23C
N23C
N24I
N24W
N24R
N24C
N24C
N25I
N25W
N25R
N25C
N25C
N26I
N26W
N26R
N26C
N26C
N27I
N27W
N27R
N27C
N27C
N28I
N28W
N28R
N28C
N28C
N29I
N29W
N29R
N29C
N29C
N30I
N30W
N30R
N30C
N30C
N31I
N31W
N19W
N19R
N19C
VEE_EXT
N19O
N20W
N20R
N20C
VEE_EXT
N20O
N21W
N21R
N21C
VEE_EXT
N21O
N22W
N22R
N22C
VEE_EXT
N22O
N23W
N23R
N23C
VEE_EXT
N23O
N24W
N24R
N24C
VEE_EXT
N24O
N25W
N25R
N25C
VEE_EXT
N25O
N26W
N26R
N26C
VEE_EXT
N26O
N27W
N27R
N27C
VEE_EXT
N27O
N28W
N28R
N28C
VEE_EXT
N28O
N29W
N29R
N29C
VEE_EXT
N29O
N30W
N30R
N30C
VEE_EXT
N30O
N31W
N31R
9.288e−02
2.067e−09
1.660e−02
8.350e−14
1.765e−09
8.874e−02
1.982e−09
1.600e−02
8.115e−14
1.705e−09
8.708e−02
1.948e−09
1.560e−02
7.954e−14
1.650e−09
8.583e−02
1.923e−09
1.520e−02
7.774e−14
1.613e−09
8.500e−02
1.906e−09
1.470e−02
7.184e−14
1.550e−09
8.583e−02
1.923e−09
1.420e−02
7.198e−14
1.566e−09
8.583e−02
1.923e−09
1.420e−02
7.198e−14
1.566e−09
8.500e−02
1.906e−09
1.470e−02
7.184e−14
1.550e−09
8.583e−02
1.923e−09
1.520e−02
7.774e−14
1.613e−09
8.708e−02
1.948e−09
1.560e−02
7.954e−14
1.650e−09
8.874e−02
1.982e−09
1.600e−02
8.115e−14
1.705e−09
9.288e−02
2.067e−09
1.660e−02
8.350e−14
1.765e−09
9.827e−02
2.179e−09
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61
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R31
C31
L31
R32WB
L32WB
R32
C32
L32
R33WB
L33WB
R33
C33
L33
R34WB
L34WB
R34
C34
L34
R35WB
L35WB
R35
C35
L35
R36WB
L36WB
R36
C36
L36
R37WB
L37WB
R37
C37
L37
R38WB
L38WB
R38
C38
L38
R39WB
L39WB
R39
C39
L39
R40WB
L40WB
R40
C40
L40
R41WB
L41WB
R41
C41
L41
R42WB
L42WB
R42
C42
L42
R43WB
L43WB
R43
C43
N31R
N31C
N31C
N32I
N32W
N32R
N32C
N32C
N33I
N33W
N33R
N33C
N33C
N34I
N34W
N34R
N34C
N34C
N35I
N35W
N35R
N35C
N35C
N36I
N36W
N36R
N36C
N36C
N37I
N37W
N37R
N37C
N37C
N38I
N38W
N38R
N38C
N38C
N39I
N39W
N39R
N39C
N39C
N40I
N40W
N40R
N40C
N40C
N41I
N41W
N41R
N41C
N41C
N42I
N42W
N42R
N42C
N42C
N43I
N43W
N43R
N43C
N31C
VEE_EXT
N31O
N32W
N32R
N32C
VEE_EXT
N32O
N33W
N33R
N33C
VEE_EXT
N33O
N34W
N34R
N34C
VEE_EXT
N34O
N35W
N35R
N35C
VEE_EXT
N35O
N36W
N36R
N36C
VEE_EXT
N36O
N37W
N37R
N37C
VEE_EXT
N37O
N38W
N38R
N38C
VEE_EXT
N38O
N39W
N39R
N39C
VEE_EXT
N39O
N40W
N40R
N40C
VEE_EXT
N40O
N41W
N41R
N41C
VEE_EXT
N41O
N42W
N42R
N42C
VEE_EXT
N42O
N43W
N43R
N43C
VEE_EXT
1.690e−02
1.034e−13
1.801e−09
1.053e−01
2.326e−09
1.650e−02
2.653e−13
1.921e−09
1.053e−01
2.326e−09
1.650e−02
2.653e−13
1.921e−09
9.827e−02
2.179e−09
1.690e−02
1.034e−13
1.801e−09
9.288e−02
2.067e−09
1.660e−02
8.350e−14
1.765e−09
8.874e−02
1.982e−09
1.600e−02
8.115e−14
1.705e−09
8.708e−02
1.948e−09
1.560e−02
7.954e−14
1.650e−09
8.583e−02
1.923e−09
1.520e−02
7.774e−14
1.613e−09
8.500e−02
1.906e−09
1.470e−02
7.184e−14
1.550e−09
8.583e−02
1.923e−09
1.420e−02
7.198e−14
1.566e−09
8.583e−02
1.923e−09
1.420e−02
7.198e−14
1.566e−09
8.500e−02
1.906e−09
1.470e−02
7.184e−14
1.550e−09
8.583e−02
1.923e−09
1.520e−02
7.774e−14
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62
AND8009/D
L43
R44WB
L44WB
R44
C44
L44
R45WB
L45WB
R45
C45
L45
R46WB
L46WB
R46
C46
L46
R47WB
L47WB
R47
C47
L47
R48WB
L48WB
R48
C48
L48
R49WB
L49WB
R49
C49
L49
R50WB
L50WB
R50
C50
L50
R51WB
L51WB
R51
C51
L51
R52WB
L52WB
R52
C52
L52
R53WB
L53WB
R53
C53
L53
R54WB
L54WB
R54
C54
L54
R55WB
L55WB
R55
C55
L55
R56WB
N43C
N44I
N44W
N44R
N44C
N44C
N45I
N45W
N45R
N45C
N45C
N46I
N46W
N46R
N46C
N46C
N47I
N47W
N47R
N47C
N47C
N48I
N48W
N48R
N48C
N48C
N49I
N49W
N49R
N49C
N49C
N50I
N50W
N50R
N50C
N50C
N51I
N51W
N51R
N51C
N51C
N52I
N52W
N52R
N52C
N52C
N53I
N53W
N53R
N53C
N53C
N54I
N54W
N54R
N54C
N54C
N55I
N55W
N55R
N55C
N55C
N56I
N43O
N44W
N44R
N44C
VEE_EXT
N44O
N45W
N45R
N45C
VEE_EXT
N45O
N46W
N46R
N46C
VEE_EXT
N46O
N47W
N47R
N47C
VEE_EXT
N47O
N48W
N48R
N48C
VEE_EXT
N48O
N49W
N49R
N49C
VEE_EXT
N49O
N50W
N50R
N50C
VEE_EXT
N50O
N51W
N51R
N51C
VEE_EXT
N51O
N52W
N52R
N52C
VEE_EXT
N52O
N53W
N53R
N53C
VEE_EXT
N53O
N54W
N54R
N54C
VEE_EXT
N54O
N55W
N55R
N55C
VEE_EXT
N55O
N56W
1.613e−09
8.708e−02
1.948e−09
1.560e−02
7.954e−14
1.650e−09
8.874e−02
1.982e−09
1.600e−02
8.115e−14
1.705e−09
9.288e−02
2.067e−09
1.660e−02
8.350e−14
1.765e−09
9.827e−02
2.179e−09
1.690e−02
1.034e−13
1.801e−09
1.053e−01
2.326e−09
1.650e−02
2.653e−13
1.921e−09
1.053e−01
2.326e−09
1.650e−02
2.653e−13
1.921e−09
9.827e−02
2.179e−09
1.690e−02
1.034e−13
1.801e−09
9.288e−02
2.067e−09
1.660e−02
8.350e−14
1.765e−09
8.874e−02
1.982e−09
1.600e−02
8.115e−14
1.705e−09
8.708e−02
1.948e−09
1.560e−02
7.954e−14
1.650e−09
8.583e−02
1.923e−09
1.520e−02
7.774e−14
1.613e−09
8.500e−02
1.906e−09
1.470e−02
7.184e−14
1.550e−09
8.583e−02
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63
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L56WB
N56W
R56
N56R
C56
N56C
L56
N56C
R57WB
N57I
L57WB
N57W
R57
N57R
C57
N57C
L57
N57C
R58WB
N58I
L58WB
N58W
R58
N58R
C58
N58C
L58
N58C
R59WB
N59I
L59WB
N59W
R59
N59R
C59
N59C
L59
N59C
R60WB
N60I
L60WB
N60W
R60
N60R
C60
N60C
L60
N60C
R61WB
N61I
L61WB
N61W
R61
N61R
C61
N61C
L61
N61C
R62WB
N62I
L62WB
N62W
R62
N62R
C62
N62C
L62
N62C
R63WB
N63I
L63WB
N63W
R63
N63R
C63
N63C
L63
N63C
R64WB
N64I
L64WB
N64W
R64
N64R
C64
N64C
L64
N64C
.ENDS PACKAGE
*
*
N56R
N56C
VEE_EXT
N56O
N57W
N57R
N57C
VEE_EXT
N57O
N58W
N58R
N58C
VEE_EXT
N58O
N59W
N59R
N59C
VEE_EXT
N59O
N60W
N60R
N60C
VEE_EXT
N60O
N61W
N61R
N61C
VEE_EXT
N61O
N62W
N62R
N62C
VEE_EXT
N62O
N63W
N63R
N63C
VEE_EXT
N63O
N64W
N64R
N64C
VEE_EXT
N64O
1.923e−09
1.420e−02
7.198e−14
1.566e−09
8.583e−02
1.923e−09
1.420e−02
7.198e−14
1.566e−09
8.500e−02
1.906e−09
1.470e−02
7.184e−14
1.550e−09
8.583e−02
1.923e−09
1.520e−02
7.774e−14
1.613e−09
8.708e−02
1.948e−09
1.560e−02
7.954e−14
1.650e−09
8.874e−02
1.982e−09
1.600e−02
8.115e−14
1.705e−09
9.288e−02
2.067e−09
1.660e−02
8.350e−14
1.765e−09
9.827e−02
2.179e−09
1.690e−02
1.034e−13
1.801e−09
1.053e−01
2.326e−09
1.650e−02
2.653e−13
1.921e−09
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64
AND8009/D
APPENDIX A
Package Models Help
In the SPICE netlist, X_777 is a circuit element (black
box) with connections to a subcircuit:
circuit element
X_777
connections
N01I N01O N021 N02O N03I N03O N04I N04O
+N05I N05O N061 N06O N07I N07O N08I N08O GND
subcircuit
PACKAGE
The defined connection nodes of the circuit element are
declared as:
N01I N01O N021 N02O N03I N03O N04I N04O
N05I N05O N061 N06O N07I N07O N08I N08O GND
The subcircuit PACKAGE is connected to these same nodes:
.SUBCKT PACKAGE
N01I N01O N021 N02O N03I N03O N04I N04O
+N05I N05O N061 N06O N07I N07O N08I N08O GND
where:
N01I is the PACKAGE pin #1 internal node connection to the chip pad
N01O is the PACKAGE pin #1 external node connecting to the lead
Internal to the subcircuit PACKAGE are several nodes for
each pin (See Figure 7). For pin 2, of the 8 pin TSSOP, the
netlist:
R02WB
L02WB
R02
C02
L02
N02I
N02W
N02R
N02C
N02C
N02I
N02W
N02R
N02C
GND
N02O
3.815e−02
9.835e−10
9.680e−04
7.711e−14
7.466e−10
N02W
R02WB
N02R
L02WB
N02O
L02
R02
N02C
C02
GND
Figure 21.
Parasitic Mutual inductance, K, and capacitance, C, is also
represented. Such as “K0102”, where inductance from Lead
#1 (L01) to Lead #2 (L02) is indicated.
K0102
K0102WB
C0102
K0103
K0103WB
K0104
K0203
K0203WB
C0203
K0204
K0204WB
L01
L01WB
N01C
L01
L01WB
L01
L02
L02WB
N02C
L02
L02WB
L02
L02WB
N02C
L03
L03WB
L04
L03
L03WB
N03C
L04
L04WB
0.2481
0.1729
2.283e−14
0.1067
0.0598
0.0593
0.2479
0.1463
2.136e−14
0.1068
0.0598
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65
AND8009/D
N01I
N01W
R01WB
N01R
N01O
L01WB
L01
R01
K0103WB
N01C
C0102
C01
K0102WB
K0102
GND
K0104
N02I
N02W
R02WB
N02R
L02WB
N02O
L02
R02
K0103
K0102
K0203WB
N02C
C02
GND
N03I
N03W
R03WB
N03R
L03WB
N03O
L03
R03
N03C
C03
GND
N04I
N04W
R04WB
N04R
L04WB
N04O
L04
R04
N04C
C04
GND
Figure 22.
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AND8009/D
Notes
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