HM3800E-LF [HMSEMI]
BOOST CONVERT CONTROL IC;型号: | HM3800E-LF |
厂家: | H&M Semiconductor |
描述: | BOOST CONVERT CONTROL IC |
文件: | 总27页 (文件大小:783K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
HM3800S
BOOST CONVERT CONTROL IC
GENERAL DESCRIPTION
The HM3800 is a boost topology switching regulator control IC for battery-used applications
field. The HM3800 includes a totem-pole single output stage for driving NPN transistor or
N-MOS, high precision reference (0.5V) for comparing output voltage with feedback amplifier,
an internal dead-time control for controlling the minimum duty cycle, programmable soft start
with short circuit protection function and logic level control for operating mode or standby
mode.
FEATURES
˙Wide supply voltage operating range: 1.8 to 15V
˙Reference voltage precision: 4%
˙Low current consumption: Operation Mode 5.5mA
Standby-by Mode 1μA
SOP8
˙High speed oscillator frequency: 1MHz max.
˙Programmable Soft Start function (SS)
˙Short Circuit Protection function(SCP)
˙Totem-pole output with adjustable on/off current
(for NPN transistors or n-channel MOSFET)
˙Logic level control stand-by mode function
˙Package: SOP8/TSSOP8/MSOP8/SOP8(EP)
TSSOP8
TYPICAL APPLICATION
˙Digital Camera
˙PDA
MS OP8
˙Portable Equipment
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HM3800S
FUNCTIONAL BLOCK DIAGRAM
3
7
Reference
voltage supply
Sawtooth wave
oscillator
0.8V
0.1V
5
1.25V
0.1V
PWM
Comp.
30 Ω
k
1
8
36kΩ
+
+
+
Output drive
control circuit
+
Error Amp.
500KΩ
0.5V
DTC 0.6V
0.22V
Soft start &
SCP circuit
6
2
4
PIN DESCRIPTION
MARK VIEW
Name No. I/O
Description
FB
SCP
VCC
1
2
3
I
Error amplifier inverting input pin
Connected a capacitor
Soft start and SCP function pin
IC power supply
1
2
3
4
8
7
6
5
I
P
I
BR/CTL 4
Output current setting and control pin
Totem-pole output
OUT
GND
5
6
O
P
IC ground
Capacitor and resistor connected for
the frequency of oscillation
OSC
7
8
I
COMP
O
Error amplifier compensation output
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HM3800S
ORDER INFORMATION
Part Number
HM3800S-LF
HM3800SR-LF
HM3800T-LF
HM3800TR-LF
HM3800E-LF
HM3800ER-LF
Operating Temperature
Package
Description
-10°C ~ +85°C
SOP8
Tube
-10°C ~ +85°C
-10°C ~ +85°C
SOP8
TSSOP8
Tape & Reel
Tube
-10°C ~ +85°C
-10°C ~ +85°C
TSSOP8
SOP8-EXPOSED PAD
Tape & Reel
Tube
-10°C ~ +85°C
SOP8-EXPOSED PAD
Tape & Reel
IC DATE CODE DISTINGUISH
HM38
HM3800
8
-
L
Lead Free
Lot Number
Mass Production Version
Per Half Month
Year
FOR EXAMPLE:
January
A (Front Half Month), B (Last Half Month)
C, D
February
March
E, F
------------And so on
Lot Number is the last two numbers
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HM3800S
ABSOLUTE MAXIMUM RATINGS
Power supply voltage--------------------------------------------------------------------------- +15V
Output source current-------------------------------------------------------------------------- -50mA
Output sink current----------------------------------------------------------------------------- +50mA
Allowable dissipation
SOP8 Ta≦+25℃------------------------------------------------------------------------- 570mW
MSOP8 Ta≦+25℃------------------------------------------------------------------------ 400mW
TSSOP8 Ta≦+25℃------------------------------------------------------------------------- 400mW
SOP8-EXPOSED PAD
Ta≦+25℃------------------------------------------------- 600mW
Operating temperature---------------------------------------------------------------------- -10℃~+85℃
Storage temperature------------------------------------------------------------------------ -55℃~+125℃
Junction breakdown Temperature--------------------------------------------------------- +125℃
SOP8 Lead Temperature (soldering, 10 sec) ------------------------------------------- +260℃
TSSOP8 Lead Temperature (soldering, 10 sec) --------------------------------------- +260℃
MSOP8 Lead Temperature (soldering, 10 sec) ---------------------------------------- +260℃
260℃/sec
260℃
-1.2℃/sec
+0.23℃/sec
210℃
180℃
+3.4℃/sec
25℃
280s
15s
60s
190s
IR Re-flow Soldering Curve
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HM3800S
DC ELECTRICAL CHARACTERISTICS (Ta=25℃,VCC=2V, unless otherwise noted)
Under Voltage Lock-Out section (U.V.L.O.)
PARAMETER
Low threshold voltage
Upper threshold voltage
SYMBOL TEST CONDITIONS MIN. TYP. MAX. UNIT
VLOW
--
--
-
-
0.9
1.5
V
V
VUPPER
1.1
1.3
Soft Start section (S.S.)
PARAMETER
SYMBOL TEST CONDITIONS MIN. TYP. MAX. UNIT
μA
Input source current
Soft start threshold voltage
ISS
VSCP= 0V
--
-1.5
0.8
-1.0
0.9
-0.7
1.0
VSST
V
Short Circuit Protection section (S.C.P.)
PARAMETER
Input source current
S.C.P. threshold voltage
SYMBOL TEST CONDITIONS MIN. TYP. MAX. UNIT
μA
ISCP
VSCP= 0V
--
-1.5
0.7
-1.0
0.8
-0.7
0.9
VSCP
V
Oscillator section
PARAMETER
SYMBOL TEST CONDITIONS MIN. TYP. MAX. UNIT
Oscillation frequency
Frequency change with
voltage
f
RT=3.0KΩ,CT=270pF
400
500
600
KHz
Δf / ΔV
VCC=2V to 15V
-
2
10
%
Frequency change with
temperature
Ta = 0℃to 85℃
Δf / ΔT
-
5
-
%
Idle Period Adjustment section
PARAMETER
SYMBOL TEST CONDITIONS MIN. TYP. MAX. UNIT
RT=3.0kΩ, CT=270pF,
Maximum duty cycle
TDUTY
75
-
85
%
VFB=0.8V
Total device section
PARAMETER
SYMBOL TEST CONDITIONS MIN. TYP. MAX. UNIT
Stand-by current
ISTANDBY
IAVE
Pin4 is open or VCC
-
-
-
1
μA
Average supply current
RB=390Ω,VCC=0~20V
5.0
10
mA
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HM3800S
DC ELECTRICAL CHARACTERISTICS (Cont.)
Error Amplifier section
PARAMETER
Input threshold voltage
VT change with voltage
SYMBOL TEST CONDITIONS MIN. TYP. MAX. UNIT
VFB
VCOMP=450mV
495
500
5
505
20
-
mV
mV
%
ΔVFB / ΔV
VCC=2V to 15V
-
Ta = -10℃to 85℃
VT change with temperature ΔVFB / ΔT
-
1
Input bias current
IB
Av
--
-1.0
-0.2
100
6
1.0
-
μA
Voltage Gain
--
-
V/V
MHz
Frequency bandwidth
Output voltage Positive
BW
Av=0 dB
-
0.78
-
-
VPOS
VNEG
ISOURCE
ISINK
--
--
0.87
0.05
-40
40
-
V
Swing
Negative
0.2
-24
-
Output source current
Output sink current
-
μA
μA
VCOMP=450mV
24
Output section
PARAMETER
SYMBOL TEST CONDITIONS MIN. TYP. MAX. UNIT
Output high voltage
VOH1
VOH2
VOL1
VOL2
RB=390Ω, IO=-15mA
RB=750Ω, IO=-10mA,
VCC= 1.8V
1.0
0.8
-
1.2
1.0
0.1
0.1
-
V
V
V
V
Output high voltage
-
Output saturation voltage
Output saturation voltage
RB=390Ω, IO=15mA
RB=750Ω, IO=10mA,
VCC= 1.8V
0.2
0.2
-
Output source current
Output sink current
IOSOURCE RB=390Ω, Vo=0.9V
-
-40
40
-20
-
mA
mA
kΩ
IOSINK
RO
RB=390Ω, Vo=0.3V
30
20
Internal pull-down resistor
--
30
40
Output Current Setting / Control section
PARAMETER SYMBOL TEST CONDITIONS MIN. TYP. MAX. UNIT
Pin voltage
VBR
RB
RB=390Ω
0.15
300
0.22
390
0.3
V
Output current setting
resistance
Ω
-
5000
Input off condition
Input on condition
Pin current range
IOFF
ION
IBR
--
--
--
-20
-
-
-
-
0
μA
μA
-45
-0.1
-1.8
mA
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HM3800S
TYPICAL CHARACTERISTICS
Supply Voltage
VS
Input Threshold Voltage
Supply Voltage VS Supply Current
12
1.2
1.0
Ta=25℃
RB=390Ω
Ta=25℃
10
8
6
4
2
0
0.8
0.6
0.4
0.2
0
8
8
0
4
12
16
20
0
4
12
16
20
Supply Voltage (V)
Figure 1
Supply Voltage (V)
Figure 2
Ambient Temperature
VS
High Level Output
Input Threshold Voltage Variation Ratio
1.2
1.0
30
VCC=2V
VCC=2V
RB=390Ω
Ta=25℃
10
0.8
5
0
0.6
0.4
0.2
- 5
-10
-15
0
-10
-20
-30
-40
-50
0
-25
0
25
50
75
100
High Level Output Current Iout (mA)
Figure 4
Ambient Temperature Ta (℃)
Figure 3
BR/CTL Pin Current
VS
Output Source Current
Low Level Output
600
500
400
300
200
100
-60
-50
-40
-30
-20
-10
VCC=2V
RB=390Ω
Ta=25℃
VCC=2V
Vout=0.9V
Ta=25℃
0
0
20
40
60
80
100
-0.4
-0.8
-1.2
-1.6
-2.0
0
0
BR/CTL Pin Current IBR (mA)
Figure 6
Low Level Output Current Iout (mA)
Figure 5
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HM3800S
TYPICAL CHARACTERISTICS (Cont.)
BR/CTL Pin Current
VS
BR/CTL Pin Current
VS
BR/CTL Pin Voltage
Supply Current
600
6.0
5.0
4.0
3.0
2.0
1.0
VCC=2V
Ta=25℃
VCC=2V
Ta=25℃
500
400
300
200
100
0
0
-0.4
-0.8
-1.2
-1.6
-2.0
-20
-40
-60
-80
-100
0
0
BR/CTL Pin Current IBR (μA)
BR/CTL Pin Current IBR(mA)
Figure 7
Figure 8
Supply Voltage
VS
Frequency Variation Ration
Triangle Oscillator Frequency
VS
15
10
5
Timing Resistance
1M
VCC=2V
Ta=25℃
CT=270PF
RT=3.0KΩ
Ta=25℃
C
C
= 100 pF
T
T
100K
0
= 1000 pF
-5
10K
2K
-10
-15
C
= 10000 pF
T
8
0
4
12
16
20
10K
40K 100K
400K 1M
1K
4K
Supply Voltage VCC (V)
Figure 10
Timing Resistor Rt (Ω)
Figure 9
Ambient Temperature
VS
Frequency Variation Ration
30
10
5
VCC=2V
CT=270PF
RT=3.0LΩ
0
-
5
-10
-15
-25
0
25
50
75
100
Ambient Temperature Ta (℃)
Figure 11
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HM3800S
TIMING WAVEFORM
COMP Pin Voltage
Reference Input For Short
Circuit Detection Comparator
Idle Period Setting Voltage
Soft Start Setting Voltage
OUT Pin Waveforms
SCP Pin Waveforms
tpe
Output
Short
Circuit
Soft Start
ts
Output Short Circuit
ON
Power Supply Control SW
OFF
Short Circuit
Detection
HM3800 Timing Diagram
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HM3800S
DETAILED DESCRIPTION
Voltage reference
A 1.25V regulator operating from VCC is used to power the internal circuitry of the HM3800. An
internal resistive divider provides 0.5V reference for the error amplifier, Soft-start (typ. 0.9V)
and SCP (typ. 0.8V) circuits.
Error amplifier
The error amplifier compares a sample of the dc-dc converter output voltage to the 0.5V
reference and generates an error signal for the PWM comparator. Output voltage of dc-dc
converter is setting with the resistor divider using the following expression (see fig12):
R1
R2
æ
ö
÷
ø
Vout = 1+
*0.5
ç
è
VOUT
R1
R2
Error Amplifier
1
36K
0.5V
500
HM3800
8
C1
Figure 12. Error Amplifier with Feedback resistance divider
Oscillator
The oscillator frequency can be set between 20KHz and 500KHz by connecting a resistor and
a capacitor at OSC pin of HM3800 to ground. The oscillator frequency can be determined by
using the graph shown in Figure 9.
The oscillator output is a sawtooth wave with a minimum value of approximately 0.1V and a
maximum value of approximately 0.8V. The PWM comparator compares the oscillator voltage
with error amplifier output voltage; internal DTC voltage (typ. 0.6V) and soft start setting
voltage. When the sawtooth wave voltage is low than above three-output voltage, the output of
HM3800 is high (Turn on NPN transistor or NMOS).
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HM3800S
Under voltage lockout (UVLO)
The under voltage lockout circuits turn the output off and whenever the supply voltage drops
too low (approximately 0.9V at 25℃) for proper operation. A hysteresis voltage of 200mV
eliminates false triggering on noise and chattering.
Soft Start/ Short-circuit protection (S.S. / S.C.P.)
The soft start is functional after power on, and the interval of soft start time is determined by a
capacitor connected to SCP pin (pin 2). When soft start function finished, the internal soft start
voltage is setting high, but external SCP pin is setting low in order to change to short circuit
detection / protection function.
The time of soft start is following expression:
Tss = 0.35*C
[mF
]
The short circuit protection is functional due to a heavy loading drop and output of error
amplifier (COMP pin) is maintain a VPOS (typ. 0.9V), the capacitor is charged until SCP
threshold voltage (typ. 0.8V), then HM3800 output is disable (internal pull-low) and the
capacitor is discharged to low.
The time of short circuit protection is following expression:
Tscp = 0.8*C
[mF
]
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HM3800S
Output transistor
The HM3800 has a totem-pole transistor with a 40mA source/sink current rating to drive an
external NPN transistor or NMOS directly. The driving current capability depends on a resistor
R that is connected to BR/CTL pin (Pin4) of HM3800. (see fig. 14)
HM3800
4
BR/CTL
R
Control
Q1
Figure 13. Output transistor driving control circuit
BR/CTL pin can also use to control the output of HM3800 for disable or enable function of
system.
Control Pin
Low
Q1
Off
On
BR/CTL Pin Output Transistor Function
Mode
Open
Disable
Enable
Stand-by
Operation
High
Bias Current
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HM3800S
APPLICATION NOTE (1)
L1
20uH
SCD34
D1
Vin +12V
Vout +24V/1A
IC1
FB
R1
C2
COMP
OSC
R2
47k 1%
SCP
C1
0.027uF
VCC
GND
0
R3
Q2
C7
220uF/25V
1
C8
C4
BR/CTL OUT
0.1uF
100uF/35V
HM3800
C5
0.1uF
R4
1k
R6
1k 1%
R5
3k
C6
Q1
3904
470pF
ON/OFF Socket
Vin
R7 4.7k
1
2
SW1
Figure 14. DC12V to DC24V Boost Regulator
L1
20uH
SCD34
D1
C9
Vin +2.5V ~ +6V
Vout +3.3V
IC1
FB
10u
R1
C2
COMP
OSC
R2
5.6k 1%
SCP
C1
0.027uF
VCC
GND
L2
0
R3
Q2
20uH
C7
220uF/25V
1
C8
C4
BR/CTL OUT
MOSFET N GDS
0.1uF
100uF/35V
HM3800
C5
0.1uF
R4
1k
R6
1k 1%
R5
3k
C6
Q1
3904
470pF
ON/OFF Socket
Vin
R7 4.7k
1
2
SW1
Figure 15. DC2.5V~DC6V to DC3.3V SEPIC Regulator
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HM3800S
APPLICATION NOTE (2)
L1
Pmos HM2305
33uH
Vout +1.8V
Q1
Vin +3.3V
3
2
R1
C1
IC1
1
R2
10k
8
7
6
5
R3
100
FB
COMP
C2
C
2
3
4
0.027uF
C3
C4
330uF
SCP
VCC
OSC
GND
D1
SCD34
R4
1k
Q2
NPN 3904
BR/CTL OUT
C5
0.1uF
HM3800
R5
499
R6
3.9k
R7
C6
270pF
Q3
NPN 3904
3.3k
ON/OFF Socket
Vin
R8 4.7k
1
2
SW1
Figure 16. DC3.3V to DC1.8V Buck Regulator
D1
BAT54S/SOT_0
2
Q1
Q2
Vout3 +17V
C1
C2
0.1uF
0.1uF
3
NPN BEC 3904
PMOS HM2305
2
3
Q3
Vout2 -6.8V
PNP BEC 3906
1
D2
BAT54S/SOT_0
C3
1uF
R1
390
C4
1uF
R2
2.2k
C5
1uF
R3
5.6k
R4
30k
R5
30k
R6
R7
2.2k
5.1k
C6
1uF
D3
1
C8
1uF
R8
1
D4
HM431
6.8k
HM431
R9
Q4
NPN 3904
L1
L2
33uH
33uH
300k
R10
5.1k
D5 SCD34
Vin
C9
1uF
Vout1 +9V
IC1
FB
R11
C11
1
2
3
4
8
7
6
5
COMP
OSC
R12
51k 1%
SCP
C10
0.027uF
VCC
GND
0
R13
Q1 NMOS HM3400
C12
1
C13
100uF
C14
C15
100uF
BR/CTL OUT
220uF/6.3V
0.1uF
R14
1k
C16
0.1uF
C7
0.1uF
HM3800
R15
R16
3k
C17
470pF
3k 1%
Q6
NPN 3904
ON/OFF Socket
Vin
R17 4.7k
1
2
SW1
Figure 17. Charge Pump DC-DC Converter Circuits
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HM3800S
APPLICATION NOTE (3)
R9
R8
V2
56K
R10
1.8K
R11
FB
V3
33K
5.1K
D2 BAT54HT1
L2 33uH
+15V
R12
3.3K
V1
(R9+R8)=17.48*R12
0.66*(R8+R9)=(R10+R11)
C8
100uF/25V
C9
47uF/16V
+
+
D3
T1
VCC
L1 18uH
F1
L3
4
5
6
33uH
V2
+5V
FUSE
C2
104
C1
+
R7
C7
470pF
7
C10
100uF/16V
C11
47uF/16V
+
+
330uF
1
BAT54RCLT1
8
2
D4
D6
8.2
9
L4
33uH
U1
V3
+3.3V
COMP
1
2
3
4
8
7
6
5
3
10
FB
COMP
Cosc
GND
OUT
C12
C13
47uF/16V
+
+
100uF/16V
SCP
C5
0.1uF
CLS12
SCP
VCC
CTL
BAT54RCLT1
V4
C6
C4
0.47uF
L5
CTL
1
Q3
33uH
-7.5V
HM3400
R6
0
HM3800
R5
220
D5 BAT54HT1
C14
100uF/16V
C15
47uF/16V
+
+
R1
Q2
2N3904
R4
33K
C3
270pF
R3
3K
ON / OFF
C16
1nF
R2
10K
Figure 18. Flyback Multi-output DC-DC Converter Circuits
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HM3800S
PACKAGE OUTLINE
SOP8
0.008typ.
0.016typ
0.050typ
D
L
SEATING PLANE
0.004max
SYMBOLS
MIN
MAX
A
A1
D
1.346
0.101
4.800
3.810
5.791
0.406
0
1.752
0.254
4.978
3.987
6.197
1.270
8
E
H
L
θ°
UNIT:MM
NOTE:
1. JEDEC OUTLINE:MS-012 AA
2. DIMENSIONS “D” DOES NOT INCLUDE MOLD FLASH,PROTRUSIONS OR GATE BURRS.MOLD
FLASH,PROTRUSIONS AND GATE BURRS SHALL NOT EXCEED .15mm (.0.06in) PER SIDE
3. DIMENSIONS “E” DOES NOT INCLUDE INTER-LEAD FLASH,OR PROTRUSIONS. INTER-LEAD
FLASH AND PROTRUSIONS SHALL NOT EXCEED .25mm (.0.10in) PER SIDE.
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HM3800S
MSOP8
8
5
“A”
1
4
0.30
0.65 BSC
GAUEGE PLANE
SEATING PLANE
θ°
D
L
L1
0.05
SYMBOLS
MIN
-
MAX
1.10
0.15
0.95
A
A1
A2
D
0.00
0.75
3.00 BSC
4.90 BSC
3.00 BSC
E
E1
L
0.40
0
0.80
8
L1
θ°
0.95 REF
UNIT:MM
NOTE:
1.JEDEC OUTLINE:MO-187 AA
2.DIMENSIONS “D” DOES NOT INCLUDE MOLD FLASH,PROTRUSIONS OR GATE BURRS.MOLD
FLASH,PROTRUSIONS AND GATE BURRS SHALL NOT EXCEED 0.15 PER SIDE
3.DIMENSIONS “E1” DOES NOT INCLUDE INTERLEAD FLASH,OR PROTRUSIONS. INTERLEAD
FLASH OR PROTRUSIONS SHALL NOT EXCEED 0.25 PER SIDE.
4.DIMENSIONS “0.22” DOES NOT INCLUDE DAMBAR PROTRUSIONS.ALLOWABLE DAMBAR
PROTRUSIONS SHALL BE 0.08 MM TOTAL IN EXCESS OF THE ‘0.22’ DIMENSION AT MAXIMUM
MATERIAL CONDITION.DAMBAR CANNOT BE LOCATED ON THE LOWER RADIUS OF THE
FOOT.MINIMIM SPAC BETWEEN PROTRUSION AND ADJACENT LEAD IS 0.07MM.
5.DIMENSIONS “D” AND ‘E1’ TO BE DETERMINED AT DATUM PLANE H
17
Shenzhen H&M Semiconductor Co.Ltd http://www.hmsemi.com
HM3800S
TSSOP8
SYMBOLS
MIN
-
NOR
MAX
1.20
0.15
1.06
3.10
A
A1
A2
D
-
-
0.05
0.96
2.90
1.01
3.00
6.40 BSC
4.40
0.60
-
E
E1
L
4.30
0.45
0
4.50
0.75
8
θ°
UNIT:MM
NOTE:
1.JEDEC OUTLINE:MO-187 AA
2.DIMENSIONS “D” DOES NOT INCLUDE MOLD FLASH,PROTRUSIONS OR GATE BURRS.MOLD
FLASH,PROTRUSIONS OR GATE BURRS SHALL NOT EXCEED 0.15 PER SIDE
3.DIMENSIONS “E1” DOES NOT INCLUDE INTERLEAD FLASH,OR PROTRUSIONS. INTERLEAD
FLASH OR PROTRUSIONS SHALL NOT EXCEED 0.25 PER SIDE.
4.DIMENSIONS “0.22” DOES NOT INCLUDE DAMBAR PROTRUSIONS.ALLOWABLE DAMBAR
PROTRUSIONS SHALL BE 0.08 MM TOTAL IN EXCESS OF THE ‘0.22’ DIMENSION AT MAXIMUM
MATERIAL CONDITION.DAMBAR CANNOT BE LOCATED ON THE LOWER RADIUS OF THE
FOOT.MINIMIM SPAC BETWEEN PROTRUSION AND ADJACENT LEAD IS 0.07MM.
5.DIMENSIONS “D” AND ‘E1’ TO BE DETERMINED AT DATUM PLANE H
18
Shenzhen H&M Semiconductor Co.Ltd http://www.hmsemi.com
HM3800S
SOP8-EXPOSED PAD
SYMBOLS
MIN
MAX
A
A1
B
1.346
0.101
1.752
0.254
1.27 BSC.
C
0.4064 BSC.
D
4.800
3.810
4.978
3.987
E
F
0.2032 BSC.
G
0.381×45°BSC.
H
5.791
0.406
0
6.197
1.270
8
L
θ°
UNIT:MM
UNIT:MM
THERMALLY ENHANCED DIMENSISONS
PAD SIZE
E1
D1
A
2.057 REF
2.184 REF
2.057 REF
2.971 REF
A1
NOTE:
1. JEDEC OUTLINE:N/A
2. DIMENSIONS “D” DOES NOT INCLUDE MOLD FLASH,PROTRUSIONS OR GATE BURRS.MOLD
FLASH,PROTRUSIONS AND GATE BURRS SHALL NOT EXCEED .15mm (.0.06in) PER SIDE
3. DIMENSIONS “E” DOES NOT INCLUDE INTER-LEAD FLASH,OR PROTRUSIONS. INTER-LEAD
FLASH AND PROTRUSIONS SHALL NOT EXCEED .25mm (.0.10in) PER SIDE.
19
Shenzhen H&M Semiconductor Co.Ltd http://www.hmsemi.com
HM3800S
PACKING SPECIFICATIONS
BOX DIMENSION
TUBE INSIDE BOX AND CARTON
100mm
220mm
FTC Logo
FTC Logo
630mm
BOX
640mm
LABEL
BOX
LABEL
190mm
380mm
INSIDE BOX
TUBE CARTON
TAPE AND REEL INSIDE BOX AND CARTON
380mm
362mm
365mm
342mm
FTC label
50mm
CARTON
LABEL
FTC Logo
Tape & Reel Carton
PACKING QUANTITY SPECIFICATIONS
SOP 8
MSOP8
TSSOP8 SOP8-EXPOSED PAD
SOP 8
MSOP8 TSSOP8 SOP8-EXPOSED PAD
100
80
160
100 EA/TUBE
2500 EA / REEL
EA/TUBE EA/TUBE EA/TUBE
100 TUBES / INSIDE BOX
4 INSIDE BOXES / CARTON
4 INSIDE BOXES / CARTON
LABEL SPECIFICATIONS
Tapping & Reel
Feeling Technology Corp.
Product
Lot No
D/C
HM3800
A3311C62-L
4Xx-XXL
Q'ty
◎~◎
無鉛
Lead Free
20
Shenzhen H&M Semiconductor Co.Ltd http://www.hmsemi.com
HM3800S
CARTON
Feeling Technology Corp.
Product Type: HM3800
Lot No: A3311C62-L
Date Code: 4Xx-XXL
Package Type: SOP-8L
Marking Type: Laser
無鉛
Lead Free
Total Q'ty:
10,000
SOP8
CARRIER TAPE DIMENSIONS
APPLICATION
SOP8
W
P
8.0±0.1
E
F
D
D1
+0.3
1.75±0.1
5.5±0.1
1.55±0.1
1.5+0.25
12.0
-0.1
APPLICATION
SOP8
P0
4.0±0.1
P1
AD
B0
K0
t
2.0±0.1
6.4±0.1
5.20±0.1 2.1±0.10 0.30±0.013
21
Shenzhen H&M Semiconductor Co.Ltd http://www.hmsemi.com
HM3800S
REEL DIMENISIONS
APPLICATION
SOP8
MATERIAL
A
B
C
D
T1
T2
PLASTIC REEL
330±0.1
62±1.5
12.75+0.15
2+0.6
12.4+0.2
2.0+0.2
22
Shenzhen H&M Semiconductor Co.Ltd http://www.hmsemi.com
HM3800S
MSOP8
CARRIER TAPE DIMENSIONS
APPLICATION
MSOP8
W
P
E
F
D
1.5+0.1
D1
12.0±3
8.0
1.75±1.0
5.5±0.5
1.50
APPLICATION
MSOP8
P0
P1
2.0±0.5
AD
B0
K0
t
4.0±0.1
4.20
3.30
1.20
0.30±0.5
(mm)
23
Shenzhen H&M Semiconductor Co.Ltd http://www.hmsemi.com
HM3800S
REEL DIMENISIONS
APPLICATION
MATERIAL
PLASTIC REEL
(WHILE)
A
B
C
D
T1
T2
MSOP8
330±1
62±1.5
12.75+0.15
12.4+0.2
16.8-0.4
2±0.15
24
Shenzhen H&M Semiconductor Co.Ltd http://www.hmsemi.com
HM3800S
TSSOP8
CARRIER TAPE DIMENSIONS
APPLICATION
TSSOP8
W
P
E
F
D
1.5+0.1
D1
12.0±0.3
8.00
1.75±1.0 5.5±0.05
1.50
APPLICATION
TSSOP8
P0
P1
AD
B0
K0
t
4.00
2.00±0.05
4.20
3.40
1.30
0.30±0.5
(mm)
25
Shenzhen H&M Semiconductor Co.Ltd http://www.hmsemi.com
HM3800S
REEL DIMENISIONS
APPLICATION
TSSOP8
MATERIAL
A
B
C
D
T1
PLASTIC REEL
(WHILE)
13.0+0.5
12.5
2±0.5
330
100
.
26
Shenzhen H&M Semiconductor Co.Ltd http://www.hmsemi.com
HM3800S
SOP8-EXPOSED PAD
CARRIER TAPE DIMENSIONS
APPLICATION
SOP8
W
P
E
F
D
D1
+0.3
8.0±0.1
1.75±0.1
5.5±0.1
1.55±0.1
1.5+0.25
12.0
-0.1
APPLICATION
SOP8
P0
4.0±0.1
P1
AD
B0
K0
t
2.0±0.1
6.4±0.1
5.20±0.1 2.1±0.10 0.30±0.013
REEL DIMENISIONS
APPLICATION
SOP8
MATERIAL
PLASTIC REEL
(WHILE)
A
B
C
D
T1
T2
330±0.1
62±1.5
12.75+0.15
2+0.6
12.4+0.2
2.0+0.2
27
Shenzhen H&M Semiconductor Co.Ltd http://www.hmsemi.com
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