FP6861C-B3BS5CTR 概述
Single-Channel Power Distribution Switch
FP6861C-B3BS5CTR 数据手册
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PDF下载Single-Channel
Power Distribution Switch
Description
Features
The FP6861C is a cost-effective, low voltage, single
N-Channel MOSFET high-side power switch,
optimized for self-powered and bus-powered
Universal Serial Bus (USB) applications.
Compliant to USB Specifications
Built-In Low RDS(ON) N-Channel MOSFET
Output can be Forced Higher than Input
(Off-State)
Low Supply Current:
The FP6861C is equipped with a charge pump
circuitry to drive the internal MOSFET switch. The
switch's low RDS(ON) meets USB voltage drop
requirement, and a flag output is available to indicate
fault conditions to the local USB controller.
65μA Typical at Switch On State
0.1μA Typical at Switch Off State
Wide Input Voltage Ranges: 2.7V to 5.5V
Open-Drain Fault Flag Output
Hot Plug-In Application (Soft-Start)
2.2V Typical Under-Voltage Lockout (UVLO)
Current Limit Protection
Thermal Shutdown Protection
Reverse Current Flow Blocking (No Body Diode)
Logic Level Enable Pin
Additional features include soft-start to limit inrush
current during plug-in, thermal shutdown to prevent
catastrophic switch failure from high-current loads,
and under-voltage lockout (UVLO) to ensure that the
device remains off unless there is a valid input
voltage present. Besides, fault current is limited to
specific current for FP6861C in single port in
accordance with the USB power requirements.
FP6861C will prevent reverse current when it is
disabled and VOUT is higher than VIN.
MSOP-8, SOP-8 and SOT-23-5 Packages
RoHS Compliant
UL NO.E322418 (Approved model: FP6861
series)
CB Test Certified, Ref. Certif. No. JPTUV-041416
Applications
USB Bus/Self Powered Hub
USB Peripheral
The FP6861C is available in MSOP-8, SOP-8 and
SOT-23-5 packages with smallest components.
ACPI Power Distribution
Notebook, Motherboard PC
Battery-Charger Circuit
Pin Assignments
Ordering Information
MS Package (MSOP-8)
FP6861C-□□□□□
TR: Tape/Reel
1
2
3
4
8
7
6
5
GND
VIN
VOUT
VOUT
VOUT*
OC
C: Green
VIN
Package Type
MS: MSOP-8
SO: SOP-8
(EN)
EN
AS5: SOT-23-5
BS5: SOT-23-5
SO Package (SOP-8)
Enable
1. Active High
2. Active Low
3. Active High,
Non-Discharge
8
7
6
5
1
2
GND
VIN
VOUT
VOUT
VOUT*
OC
3
4
VIN
EN
(EN)
Current Limit
Refer to EC table for details.
* The pin 6 should be considered as VOUT when circuit design
and PCB layout, but it is NC pin actually.
** Please see the Available Product List in next page.
FP6861C-1.0-DEC-2015
1
AS5 Package (SOT-23-5)
Available Product List
FP6861C-A1MSCTR
FP6861C-E1AS5CTR
FP6861C-E1BS5CTR
FP6861C-E1MSCTR
FP6861C-E2AS5CTR
FP6861C-F1MSCTR
FP6861C-F1SOCTR
FP6861C-H1MSCTR
FP6861C-H1SOCTR
FP6861C-I1AS5CTR
FP6861C-I1BS5CTR
FP6861C-I1SOCTR
FP6861C-I2BS5CTR
FP6861C-J3AS5CTR
(EN)
EN
VIN
FP6861C-A1AS5CTR
FP6861C-A2MSCTR
FP6861C-A2SOCTR
FP6861C-A2AS5CTR
FP6861C-A3AS5CTR
FP6861C-B1MSCTR
FP6861C-B1AS5CTR
FP6861C-B1BS5CTR
FP6861C-B1SOCTR
FP6861C-B2AS5CTR
FP6861C-B3AS5CTR
FP6861C-B3BS5CTR
FP6861C-B3MSCTR
FP6861C-C1AS5CTR
FP6861C-C1MSCTR
FP6861C-C1SOCTR
FP6861C-C2AS5CTR
FP6861C-C2SOCTR
5
1
4
3
2
VOUT GND
OC
BS5 Package (SOT-23-5)
VOUT
VIN
5
1
4
3
2
GND
EN
OC
(
)
EN
Figure1. Pin Assignment of FP6861C
SOT-23-5 Marking
Product
Code
Product
Part Number
Part Number
Code
FP6861C-A1AS5C
FP6861C-A2AS5C
FP6861C-A3AS5C
FP6861C-B1AS5C
FP6861C-B1BS5C
FP6861C-B2AS5C
FP6861C-B3AS5C
FP6861C-B3BS5C
FP6861C-C1AS5C
A9G
FP6861C-C2AS5C
FP6861C-E1AS5C
FP6861C-E1BS5C
FP6861C-E2AS5C
FP6861C-I1AS5C
FP6861C-I1BS5C
FP6861C-I2BS5C
FP6861C-J3AS5C
A6A
A3A
E6G
A8A
F2G
F1G
E9G
Fi0
A4A
FN9
A0G
D7G
A5A
FiZ
FA1
A1A
FP6861C-1.0-DEC-2015
2
Typical Application Circuit
(Optional)
RFG1
Flag Transient Filtering
USB Controller
Over-Current
10K to 100K
RFG2
10K
VIN
5V
VIN
OC
CF
0.1µF
*CIN
10µF
FP6861C
EN(EN)
GND
Chip Enable
VOUT
VBUS
D-
D+
COUT2
100µF
COUT1
22µF
GND
Ferrite Beades
Data
*Note: In most applications, adding one 1μF capacitor is enough. If the trace to VIN is long in PCB, placing larger input capacitor is
needed.
Figure 2. Typical Application Circuit
Functional Pin Description
Pin Name
Pin Function
VIN
Input Power Supply.
Switch Output.
Ground.
VOUT
GND
EN
Chip Enable. Pull the pin high to enable IC; Pull the pin low to shutdown IC. Do not let the pin floating.
Chip Shutdown. Pull the pin high to shutdown IC; Pull the pin low to enable IC. Do not let the pin floating.
Open-Drain Fault Flag Output.
ꢀ
ꢁꢂ
FP6861C-1.0-DEC-2015
3
Block Diagram
VIN
Current
Limiting
EN
(EN)
BIAS
UVLO
Gate
Control
Charge
Pump
Oscillator
*Note
Output Voltage
Detection
VOUT
Thermal
Protection
Shutdown
Signal
OC
Delay
GND
*Note: There is no discharge circuit for FP6861C-x3xxx series.
Figure 3. Block Diagram
Absolute Maximum Ratings
● VIN, VOUT -------------------------------------------------------------------------------------------------------- -0.3V to +6V
-0.3V to +6V
-0.3V to +6V
● EN (ꢀꢁ) ------------------------------------------------------------------------------------------------------------
● Oꢂ -----------------------------------------------------------------------------------------------------------------
● Power Dissipation @TJ=125°C & TA=25°C (PD)
MSOP-8 ---------------------------------------------------------------------------------------------- +0.63W
SOP-8 ------------------------------------------------------------------------------------------------ +0.91W
SOT-23-5 -------------------------------------------------------------------------------------------- +0.4W
● Package Thermal Resistance (θJA)
MSOP-8 ---------------------------------------------------------------------------------------------- +160°C/W
SOP-8 ------------------------------------------------------------------------------------------------ +110°C/W
SOT-23-5 -------------------------------------------------------------------------------------------- +250°C/W
● Junction Temperature ------------------------------------------------------------------------------------------ +150°C
● Lead Temperature (Soldering,10 sec.) --------------------------------------------------------------------- +260°C
● Storage Temperature Range --------------------------------------------------------------------------------- -65°C to +150°C
Note 1:Stresses beyond those listed under “Absolute Maximum Ratings" may cause permanent damage to the device.
Recommended Operating Conditions
● Supply Voltage (VIN) -------------------------------------------------------------------------------------------- +2.7V to +5.5V
● Operation Temperature Range (TOPR) ---------------------------------------------------------------------- -40°C to +85°C
FP6861C-1.0-DEC-2015
4
Electrical Characteristics
(VIN=5V, TA=25°C, unless otherwise specified.)
Parameter
Symbol
Conditions
Min
Typ
70
Max
100
125
90
Unit
IOUT=70% Minimum Current
Limit, MSOP-8, SOP-8 package
IOUT=70% Minimum Current
Limit, SOT-23-5 package
FP6861C-H1, IOUT=70%
Minimum Current Limit
Switch On Resistance
RDS(ON)
100
mΩ
60
65
ISW_ON
ISW_OFF
VIL
Switch on, VOUT=Open
Switch off, VOUT=Open
Switch off
Supply Current
µA
0.1
1
0.7
EN Threshold
V
VIH
Switch on
1.8
EN Input Current
IEN
VEN=Enable
0.01
2.45
2.45
2.45
1.75
1.75
1.75
1
0.1
2.8
2.8
2.8
2
µA
RLOAD=1Ω, FP6861C-A1
RLOAD=1Ω, FP6861C-A2
RLOAD=1Ω, FP6861C-A3
RLOAD=1Ω, FP6861C-B1
RLOAD=1Ω, FP6861C-B2
RLOAD=1Ω, FP6861C-B3
RLOAD=1Ω, FP6861C-C1
RLOAD=1Ω, FP6861C-C2
RLOAD=1Ω, FP6861C-E1
RLOAD=1Ω, FP6861C-E2
RLOAD=1Ω, FP6861C-F1
RLOAD=1Ω, FP6861C-H1
RLOAD=1Ω, FP6861C-I1
RLOAD=1Ω, FP6861C-I2
RLOAD=1Ω, FP6861C-J3
2.1
2.1
2.1
1.5
1.5
1.5
0.7
0.7
1.1
1.1
2.5
3
2.1
2.1
1.28
1.35
1.7
1.7
3.4
4
Current Limit
ILIM
1
A
1.4
1.4
2.95
3.5
0.55
0.55
1
0.775
0.775
1.25
1
1
1.5
VOUT=0V, Measured Prior to
Thermal Shutdown
FP6861C-A1
VOUT=0V, Measured Prior to
Thermal Shutdown
FP6861C-A2
VOUT=0V, Measured Prior to
Thermal Shutdown
FP6861C-A3
VOUT=0V, Measured Prior to
Thermal Shutdown
FP6861C-B1
0.55
0.55
0.55
0.5
Short Circuit Fold-Back
Current
ISC_FB
A
FP6861C-1.0-DEC-2015
5
Electrical Characteristics (Continued)
(VIN=5V, TA=25°C, unless otherwise specified.)
Parameter
Symbol
Conditions
Min
Typ
Max
Unit
VOUT=0V, Measured Prior to
Thermal Shutdown
FP6861C-B2
0.5
VOUT=0V, Measured Prior to
Thermal Shutdown
FP6861C-B3
VOUT=0V, Measured Prior to
Thermal Shutdown
FP6861C-C1
0.5
0.4
VOUT=0V, Measured Prior to
Thermal Shutdown
FP6861C-C2
0.4
VOUT=0V, Measured Prior to
Thermal Shutdown
FP6861C-E1
VOUT=0V, Measured Prior to
Thermal Shutdown
FP6861C-E2
VOUT=0V, Measured Prior to
Thermal Shutdown
FP6861C-F1
0.45
0.45
0.6
Short Circuit Fold-Back
Current
ISC_FB
A
VOUT=0V, Measured Prior to
Thermal Shutdown
FP6861C-H1
VOUT=0V, Measured Prior to
Thermal Shutdown
FP6861C-I1
VOUT=0V, Measured Prior to
Thermal Shutdown
FP6861C-I2
VOUT=0V, Measured Prior to
Thermal Shutdown
FP6861C-J3
0.65
0.45
0.45
0.45
Output Leakage Current
ILEAKAGE
VEN=Disable, RLOAD=0Ω
0.5
1
µA
µs
10% to 90% of VOUT Rising,
CL=120µF
250
Output Turn-On Rise Time
TON_RISE
10% to 90% of VOUT Rising,
CL=120µF
500
µs
FP6861C-B1
ROꢂ
ꢃOꢂ
ISINK=1mA
70
Ω
Oꢂ Output Resistance
Oꢂ Off Current
ꢄOꢂ=5V
0.01
µA
From Fault Condition to
tD
10
ms
Oꢂ Delay Time
Oꢂ Assertion
Under-Voltage Lockout
Under-Voltage Hysteresis
VUVLO
VIN Increasing
VIN Decreasing
2.2
0.2
80
V
V
Ω
Ω
ΔꢄUVLO
Shutdown Pull Low
Resistance (Note 2)
RPD
FP6861C-C2
190
FP6861C-1.0-DEC-2015
6
Electrical Characteristics (Continued)
(VIN=5V, TA=25°C, unless otherwise specified.)
Parameter
Symbol
TSD
Conditions
Min
Typ
135
20
Max
Unit
°C
Thermal Shutdown
Threshold (Note 3)
ΔTSD
Hysteresis
°C
Note 2: There is no resistor for FP6861C-x3xxx series.
Note 3: Guarantee by design.
FP6861C-1.0-DEC-2015
7
Test Circuit
ROC
VOC
VIN
VIN
OC
CIN
FP6861C
VOUT
GND
A
VOUT
EN
Chip Enable
RL
COUT
Figure 4. Electrical Characteristic Test Circuit of FP6861C
FP6861C-1.0-DEC-2015
8
Typical Performance Curves
VIN= VOUT=5V, CIN=100μF, ꢂOUT=120μF, TA=+25°C, unless otherwise noted. This is measured by using FP6861C-A2MSCTR.
IOUT=0A IOUT=1.3Aꢃ(3.8Ω)
VOUT 2V/div.
VOUT 2V/div.
VEN 5V/div.
VEN 5V/div.
ꢄꢁꢂ 5V/div.
ꢄꢁꢂ 5V/div.
IIN 1A/div.
IIN 1A/div.
200μs/div.
Figure 5. EN Start-Up
200μs/div.
Figure 6. EN Start-Up
IOUT=0A
IOUT=1.3Aꢃ(3.8Ω)
VOUT 2V/div.
VOUT 2V/div.
VEN 5V/div.
VEN 5V/div.
ꢄꢁꢂ 5V/div.
ꢄꢁꢂ 5V/div.
IIN 200mA/div.
IIN 1A/div.
4ms/div.
200μs/div.
Figure 7. EN Power Off Test
Figure 8. EN Power Off Test
VOUT 5V/div.
VEN 5V/div.
VOUT 5V/div.
VEN 5V/div.
ꢄꢁꢂ 5V/div.
ꢄꢁꢂ 5V/div.
IIN 2.5A/div.
IIN
1A/div.
2ms/div.
2ms/div.
Figure 9. Inrush Short Circuit Response
Figure 10. Short Circuit Response at Start Up
FP6861C-1.0-DEC-2015
9
Typical Performance Curves (Continued)
VIN= VOUT=5V, CIN=100μF, ꢂOUT=120μF, TA=+25°C, unless otherwise noted. This is measured by using FP6861C-A2MSCTR.
IOUT=0A~1.3A
VIN
COUT=120µF+100µF electronic capacitors
200mV/div.
VIN
200mV/div.
VOUT 200mV/div.
VOUT 200mV/div.
ꢄꢁꢂ
5V/div.
ꢄꢁꢂ
5V/div.
IOUT 1A/div.
IOUT 1A/div.
200μs/div.
200μs/div.
Figure 11. Load transient
Figure 12. Load transient
VOUT
200mV/div. (AC)
VOUT
200mV/div. (AC)
VEN
200mV/div.
VEN
200mV/div.
5V/div.
ꢄꢁꢂ
ꢄꢁꢂ
5V/div.
1A/div.
IOUT
1A/div.
IOUT
4μs/div.
4μs/div.
Figure 13. Output Load Insert Hot Plug-ꢃn with 3.8Ω (1.3A)
Figure 14. Output Load Insert Hot Plug-Off with 3.8Ω (1.3A)
X axis: Input Current – 1A/div.
Y axis: Output Voltage – 1V/div.
Figure 15. Over Current Protection Characteristics
FP6861C-1.0-DEC-2015
10
Typical Performance Curves (Continued)
VIN= VOUT=5V, CIN=100μF, ꢂOUT=120μF, TA=+25°C, unless otherwise noted. This is measured by using FP6861C-A2MSCTR.
1
0.8
0.6
0.4
0.2
0
200
180
160
140
120
100
80
-0.2
-0.4
-0.6
-0.8
-1
60
40
20
0
2.6 2.8
3
3.2 3.4 3.6 3.8
4
4.2 4.4 4.6 4.8
5
2.6 2.8
3
3.2 3.4 3.6 3.8
4
4.2 4.4 4.6 4.8
5
Vin (V)
Vin (V)
Figure 16. Supply Current vs. Input Voltage
Figure 17. Shutdown Current vs. Input Voltage
200
180
160
140
120
100
80
1
0.8
0.6
0.4
0.2
0
-0.2
-0.4
-0.6
60
40
Vin=5V
Vin=5V
-0.8
-1
20
0
-40
-20
0
20
40
60
80
-40
-20
0
20
40
60
80
Temperature
Temperature
Figure 18. Supply Current vs. Temperature
Figure 19. Shutdown Current vs. Temperature
1.6
1.5
1.4
1.3
1.2
1.1
1
Rising (V)
Falling (V)
-40
-20
0
20
40
60
80
Temperature
Figure 20. Enable Input Threshold vs. Temperature
FP6861C-1.0-DEC-2015
11
Application Information
Fast Shutdown Load Discharge
The FP6861C is a single N-Channel MOSFET
high-side power switch, optimized for self-powered
and bus-powered Universal Serial Bus (USB)
applications. The FP6861C operates from 2.7V to
5.5V input voltage range and provides low supply
current. The switch's low RDS(ON), 70mΩ, meets USB
voltage drop requirements. It has one switch with
enable control input. The switch has an error flag
output to notify the USB controller when the
current-limit, short-circuit or thermal-shutdown occurs.
The FP6861C provides a pull down resistance
when the device is off. The resistance could
discharge the load capacitor fast (refer to the
block diagram). (FP6861C-x3xxx series is
non-discharge.)
Input and Output
VIN is the power source connection to the internal
circuitry and the drain of the MOSFET. VOUT is
the source of the MOSFET.
In typical
Under Voltage-Lockout
application, current flows through the switch from
VIN to VOUT toward the load. If VOUT is
greater than VIN, current will flow from VOUT to
VIN since the MOSFET is bidirectional. There is
no parasitic body diode between drain and source
of the MOSFET, and the FP6861C will prevent
reverse current flow if VOUT externally forces a
higher voltage than VIN when the output is
disabled.
Under-voltage Lockout (UVLO) prevents the MOSFET
switch from turning on until input voltage exceeds
approximately 2.2V. If input voltage drops below
approximately 2V, UVLO will turn off the MOSFET
switch.
Thermal Shutdown
Thermal shutdown is employed to protect the device
from damage if the die temperature exceeds safe
margins mainly due to short-circuit or current-limit.
Thermal shutdown will shut the switch off and cause
the Oꢂ output to go low.
D
S
D
S
Reverse Current Blocking
The USB specification does not allow an output
device to source current back into the USB port.
However, the FP6861C is designed to safely power
noncompliant devices. When the device is disabled,
the output will be switched to a high-impedance state,
blocking reverse current flow from the output back to
the input. The switch is bidirectional when it is
enabled.
G
G
FP6861C
Normal MOSFET
Soft Start for Hot Plug-In Application
In order to eliminate the upstream voltage drop
caused by the large inrush current during hot-plug
events, the “soft-start” feature effectively isolates
the power source from extremely large capacitive
loads, satisfying the USB voltage drop
requirements.
Error Flag
The FP6861C provides an open drain error flag output
for the switch. For most applications, connect Oꢂ
Current Limit and Short-Circuit Protection
to VIN through a pull-up resistor. Oꢂ will go low
when any following condition occurs:
The current limit circuitry prevents damage to
the MOSFET switch and the hub downstream
port but can deliver load current up to the current
limit threshold through the switch of FP6861C.
When a heavy load or short circuit is applied to
an enabled switch, a large transient current may
flow until the current limit circuitry responds.
Once exceeds the current limit threshold, the
device will enter constant current mode until the
thermal shutdown occurs or the fault is removed.
a. The thermal shutdown occurs.
b. The switch is in current limit or short circuit
conditions.
FP6861C-1.0-DEC-2015
12
Application Information (Continued)
Supply Filter/Bypass Capacitor
The junction to ambient thermal resistance θJA is
related to layout. For SOT-23-5 package, the
thermal resistance θJA is 250°C/W on the standard
JEDEC 51-3 single-layer thermal test board.
The input capacitor must be at least 1μF low-ESR
ceramic capacitor connected from VIN to GND, but
can be increased without limit. Output short may
cause sufficient ringing on the input (from source
lead inductance) to destroy the internal control
circuitry. The input transient must not exceed 6V of
the absolute maximum supply voltage even for a
short duration.
PCB Layout
In order to meet the voltage drop and EMI
requirements, careful PCB layout is necessary.
The following guidelines must be considered:
1. Keep all VBUS traces as short as possible, and
use at least 50-mil and 2 ounce copper for all
VBUS traces.
Output Filter Capacitor
Output is recommended to use a 22μF ceramic
capacitor in parallel with a 100μF electrolytic
capacitor. Standard bypass methods should be
used to minimize inductance and resistance between
the bypass capacitor and the downstream connector
which reduce EMI and decouple voltage drop caused
when downstream cables are hot-insertion
transients. Ferrite beads in series with VBUS, the
ground line and the 0.1μF bypass capacitors at the
power connector pins are recommended for EMI and
ESD protection. The bypass capacitor should have
a low dissipation factor to allow decoupling at higher
frequencies.
2. Locate the FP6861C as close to the output port
as possible to limit switching noise.
3. Locate the ceramic bypass capacitors as close
to the VIN pins of the FP6861C as possible.
4. Avoid vias as much as possible. If vias are
necessary, make them as large as feasible.
5. Place a ground plane under all circuitry to lower
both resistance and inductance, and improve
DC and transient performance (use a separate
ground and power plans if possible).
6. Place cuts in the ground plane between ports to
help reducing the coupling of transients
between ports.
Power Dissipation
The device’s junction temperature depends on
several factors, such as the load, PCB layout,
7. Locate the output capacitor and ferrite beads as
close to the USB connectors as possible to
lower impedance (mainly inductance) between
the port and the capacitor, and improve
transient load performance.
ambient
temperature
and
package
type.
However, the maximum output current must be
decreased at higher ambient temperature to ensure
the junction temperature does not exceed 150°C.
With all possible conditions, the junction temperature
must be within the range specified under operating
conditions. Power dissipation can be calculated
based on the output current and the RDS(ON) of switch
as below:
ꢀ
ꢁ2
ꢅꢆ=RꢆS(Oꢁ)ꢇ ꢃOUT
Although the devices are rated by current limit, but
the application may limit the amount of output current
based on the total power dissipation and the ambient
temperature.
The final operating junction
temperature for any set of conditions can be
estimated by the following thermal equation:
Tꢉ(MAꢈ)ꢊTA
ꢅꢆ(MAꢈ)
=
θꢉA
where TJ(MAX) is the maximum junction temperature
125°C, TA is the ambient temperature and the θJA is
the junction to ambient thermal resistance.
FP6861C-1.0-DEC-2015
13
Outline Information
MSOP-8 Package (Unit: mm)
DIMENSION IN MILLIMETER
SYMBOLS
UNIT
MIN
0.75
0.00
0.75
0.25
2.90
4.80
2.90
0.60
0.40
MAX
1.10
0.15
0.95
0.35
3.10
5.00
3.10
0.70
0.80
A
A1
A2
B
D
E
E1
e
L
Carrier Dimensions
FP6861C-1.0-DEC-2015
14
Outline Information (Continued)
SOP-8 Package (Unit: mm)
DIMENSION IN MILLIMETER
SYMBOLS
UNIT
MIN
MAX
A
A1
A2
B
1.35
1.75
0.10
1.25
0.31
4.80
3.80
1.20
5.80
0.40
0.25
1.50
0.51
5.00
4.00
1.34
6.20
1.27
D
E
e
H
L
Note:Followed From JEDEC MO-012-E.
Carrier Dimensions
FP6861C-1.0-DEC-2015
15
Outline Information (Continued)
SOT-23-5 Package (Unit: mm)
DIMENSION IN MILLIMETER
SYMBOLS
UNIT
MIN
MAX
A
0.90
1.45
A1
A2
B
0.00
0.90
0.30
2.80
2.60
1.50
0.90
1.80
0.30
0.15
1.30
0.50
3.00
3.00
1.70
1.00
2.00
0.60
D
E
E1
e
e1
L
Note:Followed From JEDEC MO-178-C.
Carrier Dimensions
Life Support Policy
Fitipower’s products are not authorized for use as critical components in life support devices or other medical systems.
FP6861C-1.0-DEC-2015
16
FP6861C-B3BS5CTR 相关器件
型号 | 制造商 | 描述 | 价格 | 文档 |
FP6861C-B3MSCTR | FITIPOWER | Single-Channel Power Distribution Switch | 获取价格 | |
FP6861C-C1AS5C | FITIPOWER | Single-Channel Power Distribution Switch | 获取价格 | |
FP6861C-C1AS5CTR | FITIPOWER | Single-Channel Power Distribution Switch | 获取价格 | |
FP6861C-C1MSCTR | FITIPOWER | Single-Channel Power Distribution Switch | 获取价格 | |
FP6861C-C1SOCTR | FITIPOWER | Single-Channel Power Distribution Switch | 获取价格 | |
FP6861C-C2AS5C | FITIPOWER | Single-Channel Power Distribution Switch | 获取价格 | |
FP6861C-C2AS5CTR | FITIPOWER | Single-Channel Power Distribution Switch | 获取价格 | |
FP6861C-C2SOCTR | FITIPOWER | Single-Channel Power Distribution Switch | 获取价格 | |
FP6861C-E1AS5C | FITIPOWER | Single-Channel Power Distribution Switch | 获取价格 | |
FP6861C-E1AS5CTR | FITIPOWER | Single-Channel Power Distribution Switch | 获取价格 |
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