BM60212FV-C高电压高低端驱动器SPICE模型报告说明书

ns
MC ON Resistance
Yes
0.65
0.626
Ω
MC ON Threshold Voltage
Yes
2.0
2.00
V
VREG Output Voltage
Yes
4.7
4.70
V
(Note 1) Yes : There is a good correlation between measurement result and simulation result. No : No correlation between measurement result and simulation result.
Application Note
SPICE Modeling Report
1200V High Voltage High and Low Side Driver BM60212FV-C
General Description
This is a report of the BM60212FV-C SPICE Model. The correlation between actual measurement and simulation result were summarized.
The values from the simulation results are not guaranteed. Please use these results as a guide for your design. Actual measurement was done using a specific sample, thus the measured data is just as a reference.
Simulation Environment
Circuit Simulator Version Information OS Information
File Information
Library File Name Symbol File Name Subcircuit and Symbol
Verifiable Characteristics
Electrical Characteristics (vs. Datasheet)………………………………………………………………………………... 3-4 Characteristics in SPICE (vs. Measured Waveform)
Terminal Name NC1
GND2_1 NC2 MCA
OUTAL OUTAH VCCA
NC3 GND2_2
NC4
Terminal No. 11 12 13 14 15 16 17 18 19 20
Terminal Name GND1_1 ENA INA INB VREG VCCB OUTBH OUTBL MCB GND1_2
BM60212FV-C (Rev:2.01)
Symbol BM60212FV-C
These model characteristics are specifically at Ta=25°C. Thus, the simulation result with temperature variances may significantly differ from the result with the one done at actual application board (actual measurement).
BM60212FV-C SPICE Modeling Report
Application Note
Characteristics in SPICE (vs. Measured Waveform) 1. VCCB Circuit Current 1 vs Low-side Supply Voltage (OUTB=L)
Figure 2. Timing Chart of IN-OUT (Note 2) 3/12
No. 62AN082E Aug.2020
BM60212FV-C SPICE Modelunction UVLO OFF Voltage UVLO ON Voltage UVLO Mask Time
Modeled
(Note 1)
Value
Datasheet
(Typ.)
SPICE
Yes
9.5
9.50
Yes
8.5
8.50
Yes
2.5
2.51
(Note 1) Yes : There is a good correlation between measurement result and simulation result. No : No correlation between measurement result and simulation result.
VCCB Circuit Current 1 vs Low-side Supply Voltage (OUTB=L)………………………………………. 5 VCCB Circuit Current 2 vs Low-side Supply Voltage (OUTB=H)……………………………………… 6 VCCB Circuit Current 3 vs Low-side Supply Voltage (INA=10kHz, Duty=50%)……………………... 7 VCCB Circuit Current 4 vs Low-side Supply Voltage (INA=20kHz, Duty=50%)……………………... 8 VCCA Circuit Current 1 vs High-side Floating Supply Voltage (OUTA=L)……………………………. 9 VCCA Circuit Current 2 vs High-side Floating Supply Voltage (OUTA=H)…………………………… 10 OUTA (OUTB)Output Voltage vs Logic Input Voltage (VCCB=15V, VCCA=15V, Ta=+25°C)……… 11
: PSpice / Cadence Design System, Inc. : 17.2-2016 :Windows 10 64-bit Edition
: BM60212FV-C.lib : BM60212FV-C.olb
Product Name BM60212FV-C
Caution
Table 1. Correspondence Table Subcircuit
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No. 62AN082E Aug.2020
BM60212FV-C SPICE Modeling Report
BM60212FV-C SPICE MODEL
Terminal Information
U1
NC1 GND2_1 NC2 MCA OUTAL OUTAH VCCA NC3 GND2_2 NC4
Yes
0.6
OUT Turn ON Time
Yes
55
OUT Turn OFF Time
Yes
55
OUT Propagation Distortion
Yes
0
0.93
Ω
0.62
Ω
52.7
ns
51.2
ns
-1.5
ns
OUT Rise Time
Yes
50
46.2
ns
OUT Fall Time
Yes
50
45.2
(Note 2) tPON : OUT Turn ON Time , tPOFF : OUT Turn OFF Time , tRISE : Rise Time, tFALL : Fall Time,
Error
Condition
0.0% 0.0% -0.2% -0.1% 0.0% 0.0%
OUTB=L OUTB=H INA=10kHz, Duty=50% INA=20kHz, Duty=50% OUTA=L OUTA=H
U1
Simulation Setting Type : Transient Run Time : 2msec (Maximum Step Size :-)
Yes
Logic Pull-down Current
Yes
ENA Input Mask Time
Yes
Output
1.50 1.36 50 50 1.0
1.500
V
1.360
V
50.0
kΩ
50.0
μA
1.04
μA
OUT ON Resistance (Source)
Yes
0.9
OUT ON Resistance (Sink)
0.0% 0.0% 0.0% 0.0% 4.0%
INA, INB, ENA INA, INB, ENA INA<3V, INB<3V, ENA<3V INA≥3V, INB≥3V, ENA≥3V ENA
3.3% 3.3% -4.2% -6.9%
-7.6% -9.6% -3.7% 0.0% 0.0%
IOUT=-40mA, OUTA, OUTB
The simulation result and characteristics described in this report may differ depending on the board design. It is recommended to perform the measurement on the actual board to verify the result.
Unless otherwise specified, Ta=25°C, VCCA-GND2=15V, VCCB=15V
Parameter
Modeled
(Note 1)
Value
Datasheet
(Typ.)
SPICE
Unit
General
VCCB Circuit Current 1 VCCB Circuit Current 2 VCCB Circuit Current 3 VCCB Circuit Current 4 VCCA Circuit Current 1 VCCA Circuit Current 2 Logic Block
GND1_2 MCB
OUTBL OUTBH
VCCB VREG
INB INA ENA GND1_1
BM60212FV-C
Figure 1. Symbol of BM60212FV-C
Application Note
Table 2. Pin Table
Terminal No. 1 2 3 4 5 6 7 8 9 10
Yes
0.85
Yes
0.80
Yes
1.89
Yes
1.92
Yes
0.73
Yes
0.57
0.850
mA
0.800
mA
1.886
mA
1.919
mA
0.730
mA
0.570
mA
Logic High Level Input Voltage
Yes
Logic Low Level Input Voltage
Yes
Logic Pull-down Resistance
IOUT=40mA, OUTA, OUTB
OUTA, OUTB
OUTA, OUTB
tPOFF – tPON, OUTA, OUTB OUT-GND 10nF, OUTA, OUTB OUT-GND 10nF, OUTA, OUTB IMC=40mA, MCA, MCB
MCA, MCB
©2020 ROHM Co., Ltd.
Application Note
Unit
Error
Condition
V
0.0% VCCA, VCCB
V
0.0% VCCA, VCCB
μs
0.4% VCCA, VCCB
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VCCB Circuit Current1:ICC11 [mA]
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BM60212FV-C SPICE Modeling Report
Application Note
Electrical Characteristics (vs. Datasheet)
Table 3. Electrical Characteristics Comparison