Datasheet
Analog Integrated Circuit Device Data
12 Freescale Semiconductor
07XSC200
3.3 Dynamic Electrical Characteristics
Table 4. Dynamic Electrical Characteristics
Characteristics noted under conditions 6.0 V V
PWR
20 V, 3.0 V V
DD
5.5 V, - 40 C T
A
125 C, GND = 0 V unless
otherwise noted. Typical values noted reflect the approximate parameter means at T
A
= 25 °C under nominal conditions unless
otherwise noted.
Characteristic Symbol Min Typ Max Unit
POWER OUTPUT TIMING HS0 TO HS1
Output Rising Medium Slew Rate (medium speed slew rate / SR[1:0] = 00)
(25)
•V
PWR
= 14 V
SR
R_00
0.15 0.3 0.6
V/s
Output Rising Slow Slew Rate (low speed slew rate / SR[1:0] = 01)
(25)
•V
PWR
= 14 V
SR
R_01
0.07 0.15 0.3
V/s
Output Falling Fast Slew Rate (high speed slew rate / SR[1:0] = 10)
(25)
•V
PWR
= 14 V
SR
R_10
0.3 0.6 1.2
V/s
Output Falling Medium Slew Rate (medium speed slew rate / SR[1:0] = 00)
(25)
•V
PWR
= 14 V
SR
F_00
0.15 0.3 0.6
V/s
Output Falling Slow Slew Rate (low speed slew rate / SR[1:0] = 01)
(25)
•V
PWR
= 14 V
SR
F_01
0.07 0.15 0.3
V/s
Output Rising Fast Slew Rate (high speed slew rate / SR[1:0] = 10)
(25)
•V
PWR
= 14 V
SR
F_10
0.3 0.6 1.2
V/s
HS[0:1] Outputs Turn-ON and OFF Delay Times
(26)(27)
V
PWR
= 14 V for medium speed slew rate (SR[1:0] = 00)
•t
DLY(ON)
•t
DLY(OFF)
t
DLY
_12
80
40
130
90
180
140
s
Driver Output Matching Slew Rate (SR
R
/SR
F
)
• V
PWR
= 14 V @ 25 °C and for medium speed slew rate (SR[1:0] = 00)
SR
0.8 1.0 1.2
HS[0:1] Driver Output Matching Time (t
DLY(ON)
- t
DLY(OFF)
)
•V
PWR
= 14 V, f
PWM
= 240 Hz, PWM duty cycle
= 50%, @ 25 °C for
medium speed slew rate (SR[1:0] = 00)
t
RF_01
0 50 100
s
Notes
25. Rise and Fall Slew Rates measured across a 5.0 resistive load at high side output = 30% to 70% (see Figure 4, page 19).
26. Turn-ON delay time measured from rising edge of any signal (IN[0 : 1] and CSB) that would turn the output ON to V
HS[0 : 1]
= V
PWR
/ 2
with R
L
= 5.0 resistive load.
27. Turn-OFF delay time measured from falling edge of any signal (IN[0 : 1] and CSB) that would turn the output OFF to V
HS[0 : 1]
= V
PWR
/ 2
with R
L
= 5.0 resistive load.