ZVS Regulators
PI33xx-0x
8 – 36VIN ZVS Buck Regulator Family
Product Description
Features & Benefits
The PI33xx is a family of high-efficiency, wide-input-range DC‑DC
ZVS Buck regulators integrating controller, power switches and
support components all within a high-density System‑in‑Package
(SiP). The integration of a high-performance Zero-Voltage
Switching (ZVS) topology, within the PI33xx series, increases pointof-load performance providing best-in-class power efficiency. The
PI33xx requires only an external inductor and minimal capacitors to
form a complete DC-DC switching-mode Buck Regulator.
• High-efficiency ZVS Buck topology
Device
Output Voltage
• Wide input voltage range of 8 – 36V
• Very-fast transient response
• High-accuracy pre-trimmed output voltage
• User-adjustable soft start & tracking
• Power-up into pre-biased load (select versions)
• Parallel capable with single-wire current sharing
IOUT Max
• Input Over/Undervoltage Lockout (OVLO/UVLO)
Set
Range
PI3301-01
3.3V
2.3 – 4.1V
15A
• Output Overvoltage Protection (OVP)
PI3301-00
3.3V
2.3 – 4.1V
10A
• Overtemperature Protection (OTP)
PI3302-00
5.0V
3.3 – 6.5V
10A
• Fast and slow current limits
PI3303-00
12V
6.5 – 13.0V
8A
• –40 to 125°C operating range (TJ)
PI3305-00
15V
10.0 – 16.0V
8A
Applications
The ZVS architecture also enables high-frequency operation
while minimizing switching losses and maximizing efficiency. The
high‑switching-frequency operation reduces the size of the external
filtering components, improves power density, and enables very
fast dynamic response to line and load transients. The PI33xx series
sustains high switching frequency all the way up to the rated input
voltage without sacrificing efficiency and, with its 20ns minimum
on-time, supports large step‑down conversions up to 36VIN.
ZVS Regulators
Page 1 of 35
• High-Efficiency Systems
• High-Voltage Battery Operation
Package Information
• 10 x 14 x 2.6mm LGA SiP
Rev 3.4
07/2022
PI33xx-0x
Contents
Order Information
3
Absolute Maximum Ratings
3
Output Voltage Trim
28
Functional Block Diagram
4
Soft-Start Adjust and Tracking
29
Pin Description
5
Inductor Pairing
30
Package Pinout
6
Thermal De-Rating
30
PI3301-01-LGIZ (3.3VOUT ) Electrical Characteristics
7
Filter Considerations
30
PI3301-00-LGIZ (3.3VOUT ) Electrical Characteristics
10
Layout Guidelines
31
PI3302-00-LGIZ (5.0VOUT ) Electrical Characteristics
14
Recommended PCB Footprint and Stencil
32
PI3303-00-LGIZ (12.0VOUT ) Electrical Characteristics
18
Package Drawings
33
PI3305-00-LGIZ (15.0VOUT ) Electrical Characteristics
22
Revision History
34
Functional Description
26
Product Warranty
35
ENABLE (EN)
26
Remote Sensing
26
Switching Frequency Synchronization
26
Soft Start
26
Output Voltage Trim
26
Output Current Limit Protection
27
Input Undervoltage Lockout
27
Input Overvoltage Lockout
27
Output Overvoltage Protection
27
Overtemperature Protection
27
Pulse Skip Mode (PSM)
27
Variable Frequency Operation
27
Parallel Operation
27
ZVS Regulators
Page 2 of 35
Application Description
Rev 3.4
07/2022
28
PI33xx-0x
Order Information
Output Range
IOUT Max
Package
Transport
Media
2.3 – 4.1V
15A
10 x 14mm 123-pin LGA
TRAY
3.3V
2.3 – 4.1V
10A
10 x 14mm 123-pin LGA
TRAY
5.0V
3.3 – 6.5V
10A
10 x 14mm 123-pin LGA
TRAY
PI3303-00-LGIZ
12V
6.5 – 13.0V
8A
10 x 14mm 123-pin LGA
TRAY
PI3305-00-LGIZ
15V
10.0 – 16.0V
8A
10 x 14mm 123-pin LGA
TRAY
Part Number
Set
Range
PI3301-01-LGIZ
3.3V
PI3301-00-LGIZ
PI3302-00-LGIZ
Absolute Maximum Ratings
Name
Rating
VIN
–0.7 to 36V
VS1
–0.7 to 36VDC
SGND
100mA
PWRGD, SYNCO, SYNCI, EN, EAO, ADJ, TRK, ADR1, ADR2, SCL, SDA
–0.3 to 5.5V / 5mA
VOUT, REM
PI3301-xx-LGIZ
–1.0 to 18V
PI3302-00-LGIZ
–1.5 to 21V
PI3303-00-LGIZ
–3.6 to 25V
PI3305-00-LGIZ
–4.5 to 25V
Storage Temperature
–65 to 150°C
Operating Junction Temperature
–40 to 125°C
Soldering Temperature for 20 seconds
245°C
ESD Rating
2kV HBM, 1kV CDM
Notes: At 25°C ambient temperature. Stresses beyond these limits may cause permanent damage to the device. Operation at these conditions or conditions
beyond those listed in the Electrical Specifications table is not guaranteed. All voltage nodes are referenced to PGND unless otherwise noted. Test conditions
are per the specifications within the individual product electrical characteristics.
ZVS Regulators
Page 3 of 35
Rev 3.4
07/2022
PI33xx-0x
Functional Block Diagram
VIN
VS1
VIN
Q2
Q1
VOUT
R4
REM
Power
Control
R1
VCC
+
ZVS Control
SYNCO
SYNCI
PWRGD
EN
PGND
Memory
Interface
0Ω
Rev 3.4
07/2022
ADR1
ZVS Regulators
Page 4 of 35
ADR0
SDA
SCL
SGND
Simplified block diagram
EAO
ADJ
1V R2
TRK
VOUT
PI33xx-0x
Pin Description
Pin Name
Number
SGND
Block 1
Signal Ground: Internal logic ground for EA, TRK, SYNCI, SYNCO, ADJ and I2C (options)
communication returns. SGND and PGND are star connected within the regulator package.
PGND
Block 2
Power Ground: VIN and VOUT power returns.
VIN
Block 3
Input Voltage: and sense for UVLO, OVLO and feed-forward ramp.
VOUT
Block 5
Output Voltage: and sense for power switches and feed-forward ramp.
VS1
Block 4
Switching Node: and ZVS sense for power switches.
PWRGD
A1
Power Good: High impedance when regulator is operating and VOUT is in regulation. Otherwise pulls to SGND. Also
can be used for parallel timing management intended for lead regulator.
EAO
A2
Error Amp Output: External connection for additional compensation and current sharing.
EN
A3
Enable Input: Regulator enable control. Asserted high or left floating – regulator enabled;
Asserted low, regulator output disabled. Polarity is programmable via I2C interface.
REM
A5
Remote Sense: High-side connection. Connect to output regulation point.
ADJ
B1
Adjust Input: An external resistor may be connected between ADJ pin and SGND or VOUT
to trim the output voltage up or down.
TRK
C1
Soft-Start and Track Input: An external capacitor may be connected between TRK pin and SGND to decrease the
rate of rise during soft start.
NC
A4
No Connect: Leave pins floating.
VDR
K3
VDR can only be used for ADR0 and ADR1 pull-up reference voltage.
No other external loading is permitted
SYNCO
K4
Synchronization Output: Outputs a low signal for ½ of the minimum period for synchronization of other converters.
SYNCI
K5
Synchronization Input: Synchronize to the falling edge of external clock frequency. SYNCI is a high-impedance
digital input node and should always be connected to SGND when not in use.
SDA
D1
Data Line: Connect to SGND for non-I2C applications.
SCL
E1
Clock Line: Connect to SGND for non-I2C applications.
ADR1
H1
Tri-state Address: No connect for default address selection for I2C applications
ADR0
G1
Tri-state Address: No connect for default address selection for I2C applications
ZVS Regulators
Page 5 of 35
Description
Rev 3.4
07/2022
PI33xx-0x
Package Pinout
A
D
E
G
K
PGD/
PWRGD
ADJ
TRK
SDA
SCL
SGND
ADR0
ADR1
SGND
SGND
EAO
SGND
SGND
SGND
SGND
SGND
SGND
SGND
SGND
SGND
EN
SGND
SGND
SGND
SGND
SGND
SGND
SGND
SGND
VDR
NC
SGND
SGND
PGND
PGND
PGND
PGND
PGND
SYNCO
PGND
PGND
PGND
PGND
PGND
SYNCI
REM
VOUT
VOUT
VOUT
VOUT
PGND
PGND
PGND
PGND
PGND
PGND
VOUT
VOUT
VOUT
VOUT
PGND
PGND
PGND
PGND
PGND
PGND
PGND
PGND
PGND
PGND
PGND
PGND
PGND
PGND
PGND
PGND
PGND
PGND
PGND
PGND
PGND
PGND
PGND
PGND
PGND
PGND
PGND
PGND
PGND
PGND
PGND
PGND
PGND
PGND
PGND
PGND
VS1
VS1
VS1
VS1
VS1
VIN
VIN
VIN
VIN
VS1
VS1
VS1
VS1
VS1
VIN
VIN
VIN
VIN
VS1
VS1
VS1
VS1
VS1
VIN
VIN
VIN
VIN
PI34xx-00
Pin Block Name
Group of pins
SGND
B2-4, C2-4, D2-3, E2-3, F1-3, G2-3, H2-3, J1-3, K1-2
PGND
A8-10, B8-10, C8-10, D8-10, E4-10, F4-10, G4-10, H4-10, J4-10, K6-10
VIN
G12-14, H12-14, J12-14, K12-14
VS1
A12-14, B12-14, C12-14, D12-14, E12-14
VOUT
A6-7, B6-7, C6-7, D6-7
ZVS Regulators
Page 6 of 35
Rev 3.4
07/2022
PI33xx-0x
PI3301-01-LGIZ (3.3VOUT) Electrical Characteristics
Unless otherwise specified: –40°C < TJ < 125°C, VIN = 24V, L1 = 155nH [a]
Parameter
Symbol
Conditions
Min
Typ
Max
Unit
8
24
36
V
Input Specifications
Input Voltage
VIN_DC
[g]
Input Current
IIN_DC
VIN = 24V, TC = 25°C, IOUT =15A
Input Current At Output Short (fault
condition duty cycle)
IIN_Short
2.25
[b]
75
Disabled
2.0
Enabled (no load)
2.5
Input Quiescent Current
IQ_VIN
Input Voltage Slew Rate
VIN_SR
[b]
VOUT_DC
[b]
VOUT_DC
[c] [g]
A
mA
mA
1
V / μs
Output Specifications
Output Voltage Total Regulation
Output Voltage Trim Range
Line Regulation
∆VOUT (∆VIN)
At 25°C, 8V < VIN < 36V
Load Regulation
∆VOUT (∆IOUT)
At 25°C, 0.5A < IOUT < 15A
Output Voltage Ripple
VOUT_AC
IOUT = 5A, COUT = 4 x 100μF, 20MHz BW
Continuous Output
Current Range
IOUT_DC
[e] [g]
Current Limit
IOUT_CL
3.25
3.30
3.36
V
2.3
3.3
4.1
V
[d]
0.10
%
0.10
%
37.5
mVP-P
0
15
18.0
A
A
Protection
VIN UVLO Start Threshold
VUVLO_START
7.10
7.60
8.00
V
VIN UVLO Stop Threshold
VUVLO_STOP
6.80
7.25
7.60
V
VIN UVLO Hysteresis
VUVLO_HYS
0.35
V
VIN OVLO Start Threshold
VOVLO_START
36.1
37.6
V
VIN OVLO Stop Threshold
VOVLO_STOP
37.0
38.4
V
VIN OVLO Hysteresis
VOVLO_HYS
0.8
V
VIN UVLO/OVLO Fault Delay Time
tf_DLY
VIN UVLO/OVLO Response Time
tf
Output Overvoltage Protection
Number of the switching frequency cycles
128
Cycles
1% overdrive
500
ns
VOVP
Above VOUT
20
%
Overtemperature
Fault Threshold
TOTP
[b]
Overtemperature
Restart Hysteresis
TOTP_HYS
130
135
30
[a]
140
°C
°C
All parameters reflect regulator and inductor system performance. Measurements were made using a standard PI33xx evaluation board with 3x4”
dimensions and 4 layer, 2oz copper. Refer to inductor pairing table within Application Description section for specific inductor manufacturer and value.
[b] Regulator is assured to meet performance specifications by design, test correlation, characterization, and/or statistical process control.
[c] Output current capability may be limited and other performance may vary from electrical characteristics when switching frequency or V
OUT is modified.
[d] Refer to Output Ripple plots.
[e] Refer to Load Current vs. Ambient Temperature curves.
[f] Refer to Switching Frequency vs. Load current curves.
[g] Minimum 5V between V – V
IN
OUT must be maintained or a minimum load of 1mA required.
ZVS Regulators
Page 7 of 35
Rev 3.4
07/2022
PI33xx-0x
PI3301-01-LGIZ (3.3VOUT) Electrical Characteristics (Cont.)
Unless otherwise specified: –40°C < TJ < 125°C, VIN = 24V, L1 = 155nH [a]
Parameter
Symbol
Conditions
Min
Typ
Max
Unit
Timing
Switching Frequency
Fault Restart Delay
fS
[f]
tFR_DLY
650
kHz
30
ms
Sync In (SYNCI)
Synchronization Frequency Range
∆fSYNCI
SYNCI Threshold
VSYNCI
Relative to set switching frequency [c]
50
110
2.5
%
V
Sync Out (SYNCO)
SYNCO High
VSYNCO_HI
Source 1mA
4.5
V
SYNCO Low
VSYNCO_LO
Sink 1mA
SYNCO Rise Time
tSYNCO_RT
20pF load
10
ns
SYNCO Fall Time
tSYNCO_FT
20pF load
10
ns
0.5
V
Soft Start And Tracking
TRK Active Input Range
VTRK
Internal reference tracking range
0
1.04
VTRK_MAX
TRK Disable Threshold
VTRK_OV
20
40
62
mV
ITRK
70
50
25
μA
Charge Current (Soft Start)
Discharge Current (Fault)
Soft-Start Time
1.2
V
TRK Max Output Voltage
ITRK_DIS
tSS
CTRK = 0µF
V
6.8
mA
2.2
ms
Enable
High Threshold
VEN_HI
0.9
1
1.1
V
Low Threshold
VEN_LO
0.7
0.8
0.9
V
Threshold Hysteresis
VEN_HYS
100
200
300
mV
Enable Pull-Up Voltage
(floating, unfaulted)
VEN_PU
2
V
Enable Pull-Down Voltage
(floating, faulted)
VEN_PD
0
V
Source Current
IEN_SO
–50
μA
Sink Current
IEN_SK
50
μA
[a]
All parameters reflect regulator and inductor system performance. Measurements were made using a standard PI33xx evaluation board with 3x4”
dimensions and 4 layer, 2oz copper. Refer to inductor pairing table within Application Description section for specific inductor manufacturer and value.
[b] Regulator is assured to meet performance specifications by design, test correlation, characterization, and/or statistical process control.
[c] Output current capability may be limited and other performance may vary from electrical characteristics when switching frequency or V
OUT is modified.
[d] Refer to Output Ripple plots.
[e] Refer to Load Current vs. Ambient Temperature curves.
[f] Refer to Switching Frequency vs. Load current curves.
[g] Minimum 5V between V – V
IN
OUT must be maintained or a minimum load of 1mA required.
ZVS Regulators
Page 8 of 35
Rev 3.4
07/2022
PI33xx-0x
PI3301-01-LGIZ (3.3VOUT) Electrical Characteristics (Cont.)
100
Efficiency (%)
95
90
85
80
75
70
65
60
55
50
0
1
2
3
4
5
6
7
8
9 10 11 12 13 14 15
Load Current (A)
VIN = 8V
VIN = 12V
VIN = 24V
VIN = 36V
Figure 1 — Efficiency at 25°C
Figure 4 — Transient response 7.5A to 15A, at 5A/µs
24VIN to 3.3VOUT, COUT = 8 x 100µF ceramic
Figure 2 — Short circuit test
Figure 5 — Output ripple 24VIN, 3.3VOUT at 15A
COUT = 8 x 100µF ceramic
800
Frequency (kHz)
700
600
500
400
300
200
100
0
1
2
3
4
5
6
7
8
9
10 11 12 13 14 15
Load Current (A)
VIN = 8V
VIN = 12V
VIN = 24V
Figure 3 — Switching frequency vs. load current
ZVS Regulators
Page 9 of 35
VIN = 36V
Figure 6 — Output ripple 24VIN, 3.3VOUT at 7.5A
COUT = 8 x 100µF ceramic
Rev 3.4
07/2022
PI33xx-0x
PI3301-00-LGIZ (3.3VOUT) Electrical Characteristics
Unless otherwise specified: –40°C < TJ < 125°C, VIN = 24V, L1 = 200nH [a]
Parameter
Symbol
Conditions
Min
Typ
Max
Unit
8
24
36
V
Input Specifications
Input Voltage
VIN_DC
[g]
Input Current
IIN_DC
VIN = 24V, TC = 25°C, IOUT =10A
Input Current at Output Short
(Fault Condition Duty Cycle)
IIN_Short
1.49
[b]
A
20
mA
Disabled
2.0
mA
Enabled (no load)
2.5
mA
Input Quiescent Current
IQ_VIN
Input Voltage Slew Rate
VIN_SR
[b]
VOUT_DC
[b]
VOUT_DC
[c] [g]
1
V/μs
Output Specifications
Output Voltage Total Regulation
Output Voltage Trim Range
Line Regulation
∆VOUT (∆VIN)
At 25°C, 8V < VIN < 36V
Load Regulation
∆VOUT (∆IOUT)
At 25°C, 0.5A < IOUT < 10A
Output Voltage Ripple
VOUT_AC
IOUT = 5A, COUT = 4 x 100μF, 20MHz BW
Continuous Output
Current Range
IOUT_DC
[e]
Current Limit
IOUT_CL
3.25
3.30
3.36
V
2.3
3.3
4.1
V
[d]
0.10
%
0.10
%
37.5
mVP-P
10
12
A
A
Protection
VIN UVLO Start Threshold
VUVLO_START
7.10
7.60
8.00
V
VIN UVLO Stop Threshold
VUVLO_STOP
6.80
7.25
7.60
V
VIN UVLO Hysteresis
VUVLO_HYS
0.33
VIN OVLO Start Threshold
VOVLO_START
36.1
VIN OVLO Stop Threshold
VOVLO_STOP
37.0
VIN OVLO Hysteresis
VOVLO_HYS
VIN UVLO/OVLO Response Time
tf
Output Overvoltage Protection
VOVP
Overtemperature
Fault Threshold
TOTP
Overtemperature
Restart Hysteresis
TOTP_HYS
V
V
38.4
V
0.77
V
1% overdrive
500
ns
Above VOUT
20
%
[a]
130
135
30
140
°C
°C
All parameters reflect regulator and inductor system performance. Measurements were made using a standard PI33xx evaluation board with 3x4”
dimensions and 4 layer, 2oz copper. Refer to inductor pairing table within Application Description section for specific inductor manufacturer and value.
[b] Regulator is assured to meet performance specifications by design, test correlation, characterization, and/or statistical process control.
[c] Output current capability may be limited and other performance may vary from electrical characteristics when switching frequency or V
OUT is modified.
[d] Refer to Output Ripple plots.
[e] Refer to load current vs. ambient temperature curves.
[f] Refer to switching frequency vs. load current curves.
[g] Minimum 5V between V -V
IN OUT must be maintained or a minimum load of 1mA required.
ZVS Regulators
Rev 3.4
Page 10 of 35 07/2022
PI33xx-0x
PI3301-00-LGIZ (3.3VOUT) Electrical Characteristics (Cont.)
Unless otherwise specified: –40°C < TJ < 125°C, VIN = 24V, L1 = 200nH [a]
Parameter
Symbol
Conditions
Min
Typ
Max
Unit
Timing
Switching Frequency
Fault Restart Delay
fS
[f]
tFR_DLY
650
kHz
30
ms
Sync In (SYNCI)
Synchronization Frequency Range
∆fSYNCI
SYNCI Threshold
VSYNCI
2.5
V
SYNCI Input Impedance
ZSYNCI
100
kΩ
Relative to set switching frequency [c]
50
110
%
Sync Out (SYNCO)
SYNCO High
VSYNCO_HI
Source 1mA
4.5
V
SYNCO Low
VSYNCO_LO
Sink 1mA
SYNCO Rise Time
tSYNCO_RT
20pF load
10
ns
SYNCO Fall Time
tSYNCO_FT
20pF load
10
ns
0.5
V
Soft Start And Tracking
TRK Active Input Range
VTRK
Internal reference tracking range
0
TRK Max Output Voltage
TRK Disable Threshold
Charge Current (Soft-Start)
Discharge Current (Fault)
Soft-Start Time
1.04
1.2
V
V
VTRK_OV
20
40
62
mV
ITRK
70
50
25
μA
ITRK_DIS
VTRK = 0.5V
6.8
mA
tSS
CTRK = 0µF
2.2
ms
Enable
High Threshold
VEN_HI
0.9
1
1.1
V
Low Threshold
VEN_LO
0.7
0.8
0.9
V
Threshold Hysteresis
VEN_HYS
100
200
300
mV
Enable Pull-Up Voltage
(Floating)
VEN_PU
With positive logic EN polarity
2
V
Enable Pull-Down Voltage
(Floating)
VEN_PD
With negative logic EN polarity
0
V
Source Current
IEN_SO
With positive logic EN polarity
50
μA
Sink Current
IEN_SK
With negative logic EN polarity
50
μA
[a]
All parameters reflect regulator and inductor system performance. Measurements were made using a standard PI33xx evaluation board with 3x4”
dimensions and 4 layer, 2oz copper. Refer to inductor pairing table within Application Description section for specific inductor manufacturer and value.
[b] Regulator is assured to meet performance specifications by design, test correlation, characterization, and/or statistical process control.
[c] Output current capability may be limited and other performance may vary from electrical characteristics when switching frequency or V
OUT is modified.
[d] Refer to Output Ripple plots.
[e] Refer to load current vs. ambient temperature curves.
[f] Refer to switching frequency vs. load current curves.
[g] Minimum 5V between V -V
IN OUT must be maintained or a minimum load of 1mA required.
ZVS Regulators
Rev 3.4
Page 11 of 35 07/2022
PI33xx-0x
PI3301-00-LGIZ (3.3VOUT) Electrical Characteristics (Cont.)
100
95
Efficiency
90
85
80
75
70
65
60
55
50
0
1
2
3
4
5
6
7
8
9
10
Load Curent (A)
VIN = 12V
VIN = 24V
VIN = 36V
Figure 7 — Efficiency at 25°C
Figure 10 — Transient response 2A to 7A, at 5A/µs
Figure 8 — Short circuit test
Figure 11 — Output ripple 24VIN, 3.3VOUT at 10A
700
Frequency (kHz)
600
500
400
300
200
100
0
1
2
3
4
5
6
7
8
9
10
Load Curent (A)
VIN = 12V
VIN = 24V
Figure 9 — Switching frequency vs. load current
VIN = 36V
Figure 12 — Output ripple 24VIN, 3.3VOUT at 5A
ZVS Regulators
Rev 3.4
Page 12 of 35 07/2022
PI33xx-0x
PI3301-00-LGIZ (3.3VOUT) Electrical Characteristics (Cont.)
12
Load Current (A)
10
8
6
4
2
0
50
75
125
100
Ambient Temperature (°C)
VIN = 8V
VIN = 24V
VIN = 36V
Figure 13 — Load current vs. ambient temperature, 0LFM
Load Current (A)
12
10
8
6
4
2
0
50
75
125
100
Ambient Temperature (°C)
VIN = 8V
VIN = 24V
VIN = 36V
Figure 14 — Load current vs. ambient temperature, 200LFM
12
Load Current (A)
10
8
6
4
2
0
50
75
125
100
Ambient Temperature (°C)
VIN = 8V
VIN = 24V
VIN = 36V
Figure 15 — Load current vs. ambient temperature, 400LFM
ZVS Regulators
Rev 3.4
Page 13 of 35 07/2022
PI33xx-0x
PI3302-00-LGIZ (5.0VOUT) Electrical Characteristics
Unless otherwise specified: –40°C < TJ < 125°C, VIN = 24V, L1 = 200nH [a]
Parameter
Symbol
Conditions
Min
Typ
Max
Unit
8
24
36
V
Input Specifications
Input Voltage
VIN_DC
[g]
Input Current
IIN_DC
VIN = 24V, TC = 25°C, IOUT =10A
Input Current at Output Short
(Fault Condition Duty Cycle)
IIN_Short
2.23
[b]
A
20
mA
Disabled
2.0
mA
Enabled (no load)
2.5
mA
Input Quiescent Current
IQ_VIN
Input Voltage Slew Rate
VIN_SR
[b]
VOUT_DC
[b]
VOUT_DC
[c] [g]
1
V/μs
5.07
V
6.5
V
Output Specifications
Output Voltage Total Regulation
Output Voltage Trim Range
4.93
5.00
3.3
Line Regulation
∆VOUT (∆VIN)
At 25°C, 8V