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Ordering number : ENN7983
LB8658FN LB8658PL
Features
Monolithic Digital IC
DSC Motor Driver
* An actuator driver for digital camera is implemented on a single chip. (1) Supports a constant voltage for the AF H-bridge x2 : a stepping motor (STM) x1. - Constant voltage drive. - Enables 1 phase, 1-2 phase and 2-phase excitation. - VC1 and VC2 allow the constant voltage for each channel to be set independently. (2) Supports a constant current for the shutter H-bridge x1 : a voice coil motor (VCM) x1. - Constant current drive. - ICH allows current setting for each current carrying direction. Supports current suppression while the shutter is Open. - A fast charge/discharge circuit allows for stabilization of response speed of the continuous drive mode. - Allows offsetting of the constant current rising waveform with an external C. (The external C is not required when an offset is not performed) Prevents current rising variation of coil caused by supply voltage fluctuation. - Implements regenerative brake logic. (3) Supports a constant voltage for the iris H-bridge x1 : a voice coil motor (VCM) x1. - Constant voltage drive. - VC4 allows the independent constant voltage to be set. (4) Supports a constant voltage for the zoom H-bridge x1 : a DC motor (DCM) x1. - Constant voltage drive. - VC3 allows the independent constant voltage to be set. - Built-in short brake. (5) Supports an open collector output for the photo sensor x3 : a photo sensor (PR/PI) x3. - AFPI and ZMPI are turned ON in synchronization with focus mode and zoom mode, respectively. - ZMPR can be controlled independently, regardless of mode. [Actuator applications]
Focus Applications STM Shutter VCM Iris VCM Zoom DCM
Continued on next page.
Any and all SANYO Semiconductor products described or contained herein do not have specifications that can handle applications that require extremely high levels of reliability, such as life-support systems, aircraft's control systems, or other applications whose failure can be reasonably expected to result in serious physical and/or material damage. Consult with your SANYO Semiconductor representative nearest you before using any SANYO Semiconductor products described or contained herein in such applications. SANYO Semiconductor assumes no responsibility for equipment failures that result from using products at values that exceed, even momentarily, rated values (such as maximum ratings, operating condition ranges, or other parameters) listed in products specifications of any and all SANYO Semiconductor products described or contained herein.
92706 / 62504 JO IM No.7983-1/16
LB8658FN, LB8658PL
Continued from preceding page.
* Synchronous actuator driving is possible. [Table Showing Combinations of Actuators which Can Be Driven Simultaneously]
Focus When "MD1" not used (6 input ports required) Shutter Iris Zoom
When "MD1" used (7 input ports required)
* Parallel control via 7 or 8 input ports (one of which is used to photo sensor control). * Two power supply systems. * Supports low voltage drive (1.9V min). * Low saturation output (Vsat = 0.37Vtyp at IO = 200mA). * Current dissipation in stand-by state is 0 (zero). * Built-in overheat protection circuit. * Small and thin package. VQFN44 (6.0x6.0) for LB8658FN and VQLP40 (5.0x5.0) for LB8658PL.
Specifications
Absolute Maximum Ratings at Ta = 25C [LB8658PL : Preliminary]
Parameter Maximum power supply voltage Symbol VB1 max VB2 max OUT1, 2, 3, 4, 7, 8, 9, 10 Maximum applied output voltage VOUT max OUT5, 6 ZMPR, ZMPI, AFPI OUT1, 2, 3, 4, 7, 8 Maximum output current IOUT max OUT5, 6, 9, 10 ZMPR, ZMPI, AFPI Maximum applied input voltage Allowable power dissipation Operating temperature Storage temperature VIN max Pd max Topr [LB8658FN] Tstg [LB8658PL] MD1 to 3, IN1 to 5 Standard PWB mounting (*1) Standard PWB mounting (*2) [LB8658FN] [LB8658PL] Conditions Ratings -0.3 to 10.5 -0.3 to 10.5 -0.3 to VB1+VF -0.3 to VB2+VF -0.3 to 10.5 600 800 30 -0.3 to 10.5 1.9 1.1 -20 to +80 -55 to +150 -55 to +125 W C C V mA V V Unit
(*1) Standard PWB : 30mmx50mmx0.8mm glass epoxy resin 4-layer PWB (*2) Standard PWB : 40mmx50mmx0.8mm glass epoxy resin 4-layer PWB Recommended Operating Range at Ta = 25C [LB8658PL : Preliminary]
Parameter Voltage for guarantee of function Symbol VB1 opr VB2 opr VOUT1 VOUT2 IOUT VVC1 Constant-voltage setting input range Constant-current setting input range Input pin "H" voltage Input pin "L" voltage VVC2 VIC VINH VINL OUT1, 2, 3, 4, 7, 8 OUT5, 6 OUT9, 10 VC1, VC2, VC4 VC3 IC MD1 to 3, IN1 to 5 MD1 to 3, IN1 to 5 Conditions Ratings 2.2 to 10 2.2 to 10 0 to VB1 0 to VB2 50 to 500 0.1 to VB1 0.1 to VB2 0.1 to 1.0 1.8 to 10 -0.3 to 0.4 V V V V V mA V Unit
Constant-voltage setting range Constant-current setting range
No.7983-2/16
LB8658FN, LB8658PL
Electrical Characteristics at Ta = 25C, VB1 = VB2 = 3V [LB8658PL : Preliminary]
Parameter Current dissipation in stand-by state Symbol ISTB IB11 IB12 IB13 VB1 system operation current dissipation IB14 IB15 IB16 IB17 VB2 system operation current dissipation IB21 IB22 Conditions min VB1 = VB2 = 10V MD1/2/3/IN1/2 = L/L/L/*/* MD1/2/3/IN1/2 = L/L/H/*/* MD1/2/3/IN1/2 = L/H/L/*/* MD1/2/3/IN1/2 = L/H/H/*/* MD1/2/3/IN1/2 = H/*/L/*/* MD1/2/3/IN1/2 = H/*/H/*/* IN3/4 = */* IN3/4 = L/L IN3/4 = L/H or H/L or H/H Ratings typ 0.1 12 8 12 8 15 12 10 0.1 8 max 1.0 16 11 16 11 20 16 14 1.0 11 A mA 3 mA 2 A 1 Unit Remarks
[Constant-voltage driver for AF] (OUT1, OUT2, OUT3, OUT4) VO11 Output constant-voltage 1 VO12 Output saturation voltage 1 VSAT1 VC1 or VC2 = 0.3V VC1 or VC2 = VREFx0.3 (partial resistance) VB1 = 3.0V, IO = 200mA 1.52 1.47 1.57 1.57 0.37 1.62 V 1.67 0.50 V 5 4
[Constant-Voltage driver for zoom] (OUT5, OUT6) Output constant-voltage 2 Output saturation voltage 2 VO21 VO22 VSAT2 VC3 = 0.3V VC3 = VREFx0.3 (partial resistance) VB2 = 3.0V, IO = 300mA 1.52 1.47 1.57 1.57 0.44 1.62 1.67 0.60 V 7 V 6
[Constant-voltage driver for iris] (OUT7, OUT8) Output constant-voltage 3 Output saturation voltage 3 [Constant-current driver] (OUT9, OUT10) Output constant-current Output constant-current/ voltage variation Output saturation voltage 4 IC output saturation voltage ICH output saturation voltage [Reference voltage circuit] (VREF) VREF output constant-voltage VREF IREF = -1mA 0.95 1.00 1.05 V 15 IO IOLIN VSAT4 VSAT5 VSAT6 VB1 = 3.0V, between IM and GND : 1.0, IC = VREF/5 VB1 = 3V to 5V (VB1 = 4V typ), IO = 200 mA VB1 = 3.0V, IO = 300mA VB1 = 3.0V, IO = 1mA VB1 = 3.0V, IO = 1mA 188 -1 200 0 0.44 0.12 212 +1 0.60 0.2 0.1 mA % V V V 10 11 12 13 14 VO31 VO32 VSAT3 VC4 = 0.3V VC4 = VREFx0.3 (partial resistance) VB1 = 3.0V, IO = 200mA 1.52 1.47 1.57 1.57 0.37 1.62 1.67 0.50 V 9 V 8
[Photo sensor drive circuit] (ZMPR, ZMPI, AFPI) Output saturation voltage 7 [Input circuit] (MD1 to 3, IN1 to 5) Control pin input current [Others] Overheat protection detection temperature TTSD *Design guarantee 160 180 200 C 19 IINH IINL VIN = 5.0V VIN = 0V 70 90 0 A A 17 18 VSAT7 IO = 10mA 0.3 0.45 V 16
* Temperature characteristics of design guaranteed, however individual unit testing is not performed.
No.7983-3/16
LB8658FN, LB8658PL
[Remarks] 1) Specifies the IC standby leak current. 2) Specifies the current dissipated at the pin VB1 in each mode. (Specifies the maximum value for each condition.) 3) Specifies the current dissipated at the pin VB2 in each mode. (Specifies the maximum value for each condition.) 4) Specifies the output voltage when the constant voltage is output from pins OUT5 to OUT4. 5) Specifies the output transistor (upper and lower) saturation voltage at pins OUT1 to OUT4 6) Specifies the output voltage when the constant voltage is output from pins OUT5 to OUT6. 7) Specifies the output transistor (upper and lower) saturation voltage at pins OUT5 to OUT6. 8) Specifies the output voltage when the constant voltage is output from pins OUT7 and OUT8. 9) Specifies the output transistor (upper and lower) saturation voltage at pins OUT7 to OUT8. 10) Specifies the output current when the constant current is output from pins OUT9 to OUT10. 11) Specifies the output current variation caused by supply voltage fluctuation when the constant current is output from pins OUT9 to OUT10. 12) Specifies the output transistor (upper and lower) saturation voltage at pins OUT9 to OUT10. 13) Specifies the saturation voltage of the IC pin discharge transistor. 14) Specifies the saturation voltage of the ICH pin discharge transistor. 15) Specifies the output voltage at VREF. 16) Specifies the saturation voltage of the output transistor at pins ZMPR, ZMPI and AFPI. 17) Specifies the input current when the voltage inputs at pins MD1 to MD3 and IN1 to IN5 is "H". 18) Specifies the input current when the voltage inputs at pins MD1 to MD3 and IN1 to IN5 is "L". 19) Specifies the overheat protection circuit detection temperature. (design guaranteed)
Package Dimensions
unit : mm 3293 [LB8658FN]
No.7983-4/16
LB8658FN, LB8658PL
Package Dimensions
unit : mm 3302 [LB8658PL]
Pin Assignment
SGND PGND 35 VREF (NC) VC2 VB2 (NC) 34 33 (NC) 32 OUT5 31 OUT6 30 OUT1 29 OUT2 28 OUT3 27 OUT4 26 OUT7 25 OUT8 24 OUT9 23 OUT10 12 (NC) 13 (NC) 14 IN5 15 ZMPR 16 ZMPI 17 AFPI 18 FC 19 VB1 20 IMB 21 IMA 22 PGND Top view
ILB01673
VC4
VC3
VC1 39
44 ICH 1 IC 2 IN1 3 IN2 4 IN3 5 IN4 6 MD1 7 MD2 8 MD3 9 (NC) 10 (NC) 11
43
42
41
40
38
VB1
37
36
LB8658FN
No.7983-5/16
LB8658FN, LB8658PL
SGND
PGND 32
VREF
VC2
40 ICH 1 IC 2 IN1 3 IN2 4 IN3 5 IN4 6 MD1 7 MD2 8 MD3 9 (NC) 10
39
38
37
36
35
34
33
VB2
31 30 OUT5 29 OUT6 28 OUT1 27 OUT2 26 OUT3
LB8658PL
(NC)
VC4
VC3
VC1
VB1
25 OUT4 24 OUT7 23 OUT8 22 OUT9 21 OUT10
11 (NC)
12 IN5
13 ZMPR
14 ZMPI
15 AFPI
16 FC
17 VB1
18 IMB
19 IMA
20 PGND Top view
ILB01674
No.7983-6/16
LB8658FN, LB8658PL
Pin Description
Pin number Pin name LB8658FN 19, 38 37 22, 35 44 20 21 30 29 28 27 32 31 26 25 24 23 7 8 9 3 4 5 6 14 43 39 40 41 42 18 2 1 15 16 17 LB8658PL 17, 34 33 20, 32 40 18 19 28 27 26 25 30 29 24 23 22 21 7 8 9 3 4 5 6 12 39 35 36 37 38 16 2 1 13 14 15 VB1 VB2 PGND SGND IMB IMA OUT1 OUT2 OUT3 OUT4 OUT5 OUT6 OUT7 OUT8 OUT9 OUT10 MD1 MD2 MD3 IN1 IN2 IN3 IN4 IN5 VREF VC1 VC2 VC3 VC4 FC IC ICH ZMPR ZMPI AFPI Battery power supply ditto Power system GND Control system GND OUT9 and OUT10 current detection feedback pin OUT9 and OUT10 current detection pin Motor drive output ditto ditto ditto ditto ditto ditto ditto ditto ditto Control signal input ditto ditto ditto ditto ditto ditto ditto Reference voltage output Constant-voltage setting reference input ditto ditto ditto Phase compensation pin Constant-current setting reference input Constant-current setting switching output Photo sensor drive output ditto ditto Description VB1 Protection diode Upper side VB2 Lower side PGND SGND
No.7983-7/16
LB8658FN, LB8658PL
Block Diagram
Note : When the input voltage for IC pin is set with partial resistance from the reference voltage such as VREF, make sure not to use "VC1", "VC2", "VC3" and "VC4", and partial resistance together. (In any mode other than shutter mode, the IC pin discharge transistor inside the IC pin switches to ON.)
No.7983-8/16
LB8658FN, LB8658PL
Truth Table
Input Output ZM PR MD1 MD2 MD3 IN1 IN2 IN3 IN4 IN5 OUT1 OUT2 OUT3 OUT4 OUT5 OUT6 OUT7 OUT8 OUT9 OUT10 L L L L L H H H L L H H H L L L H H H L L H H H L L L L H H H L L H H H L L L H H H L L H H L H L H L H L H L H L H L H L H L H L H L H L H L H L H L H L H L L H H L H L H L H L L H H L H L L H H L H L L H H L H H H L L H L H H L L H L H H L L H L H L H L H L H L H L H L H L H L H L L H L H L H L H L H L H L H L H L H L H L H L L PR L L Zoom (with brake) AF&Iris (2) (1-phase excitation) H L AF&Iris (2) (2-phase excitation) AF&Iris (1) (1-phase excitation) L H AF&Iris (1) (2-phase excitation) AF only (1-phase excitation) L H H Iris L L AF only (2-phase excitation) L H H L H OFF ON L ON OFF Stand-by Closed Shutter Open Regeneration ZM PI AF PI VREF ICH IC pin discharge Mode
No.7983-9/16
LB8658FN, LB8658PL
Internal Equivalent Circuit Diagram (Pin number in the figure applies to LB8658FN)
Pin number Pin name LB8658FN 7 8 9 3 4 5 6 LB8658PL 7 8 9 3 4 5 6 MD1 MD2 MD3 IN1 IN2 IN3 Internal equivalent circuit diagram
VB1
65k 3 9 80k
10k 10k SGND
ILB01675
14
12
IN5
65k VB1 65k 14 80k 26k SGND
IN4
ILB01676
39 40 41 42
35 36 37 38
VC1 VC2 VC3 VC4
VB1, 2
300 39 40 41 42
15k
SGND
43 40 VREF
PGND VB1
ILB01677
43 10k 10k
SGND
ILB01678
Continued on next page.
No.7983-10/16
LB8658FN, LB8658PL
Continued from preceding page.
Pin number Pin name LB8658FN 2 LB8658PL 2 IC Internal equivalent circuit diagram
VB1 3k 300 2
SGND
18 16 FC
PGND
ILB01679
VB1
30k
300
200
1k
PGND SGND 18
20 21 18 19 IMB IMA ILB01680
400
23
24
300
10k
10k
400
VB1
PGND 21 20
ILB01681
Continued on next page.
No.7983-11/16
LB8658FN, LB8658PL
Continued from preceding page.
Pin number Pin name LB8658FN 24 23 LB8658PL 22 21 OUT9 OUT10 Internal equivalent circuit diagram
VB1 400
23 24
10k
PGND 21
ILB01682
30 29 28 27 32 31 26 25
28 27 26 25 30 29 24 23
OUT1 OUT2 OUT4 OUT5 OUT6 OUT7 OUT8
VB1, 2 1k
OUT3
25 30k
32
10k
7.5k
PGND
ILB01683
1
1
ICH
VB1
1
50k
PGND
15 16 17 13 14 15 ZMPR ZMPI AFPI
ILB01684
15 16 17
50k
SGND
ILB01685
No.7983-12/16
LB8658FN, LB8658PL
Application Design Notes
(1) Constant-voltage setting for OUT1 to OUT8 "H" output voltage for OUT1 and OUT2 can be set by the VC1 pin input voltage. The setting formula is as follows: (OUT1/OUT2 output voltage) = (VC1 input voltage) x5.23 Correspondingly, OUT3 and OUT4 can be set by VC2, OUT5 and OUT6 can be set by VC3, and OUT7 and OUT8 can be set by VC4. The setting formula is as follows: (OUT3/OUT4 output voltage) = (VC2 input voltage) x5.23 (OUT5/OUT6 output voltage) = (VC3 input voltage) x5.23 (OUT7/OUT8 output voltage) = (VC4 input voltage) x5.23 In addition, if the right side setting of the above formula exceeds the supply voltage (VB), the output voltage is saturated. (2) Output pin oscillation prevention capacitor for OUT1 to OUT8 constant-voltage control For constant-voltage control of OUT1 to OUT8, a capacitor must be placed between OUT pins in order to prevent oscillation. Test capacitor values between 0.01F to 0.1F and choose a value that does not cause output oscillation problems. However, for the saturated drive, no oscillation prevention capacitor is necessary. (3) Constant-current setting of OUT9 and OUT10 Constant-current setting between OUT9 and OUT10 depends on the IC pin input voltage and IMA/IMB pin connection resistance (current detection resistor). The IMA pin is connected to the GND side of H-bridge and the IMB pin is connected to the negative input of constant-current control amplifier. The IMA pin and the IMB pin are short circuited on the PWB to be used. (Short circuit near the current detection resistor is recommended.) As shown in the block diagram, the output current is controlled so that the IC pin input voltage can be equal to the voltage generated on the current detection resistor, which is connected between IMA (IMB) and GND. The formula for output current is as follows: (Output current) = (IC input pin voltage) / (current detection resistance) In addition, since the constant-current control block is connected to PGND inside the IC, when the voltage is supplied to the IC pin with partial resistance, GND side of the resistor must be connected to PGND. (4) ICH pin For the application when current is switched between shutter "Close" and "Open", the ICH pin is used. The ICH pin is changed to "L" only in "Open" mode (refer to the Truth table). This allows the current for shutter "Open" to be set (switched) lower than the current for shutter "Close". The IC pin input voltage is switched by the combined resistance value which is obtained from resistance connected to the IC pin (2 resistors between VREF and GND) and a resistor connected to the ICH pin. (5) Fast charge/discharge circuit for the FC pin In order to support high speed shutter control (sequential shutter), a built-in fast charge/fast discharge circuit is implemented in the shutter control block (OUT9 and OUT10).
No.7983-13/16
LB8658FN, LB8658PL
(6) Constant-current rising offset function
IC pin voltage Rising offset
VB1 is high. (Without IC capacitor) VB1 is low. (Without IC capacitor)
Coil current
Rising offset coil current
IC discharging
Shutter "Close" operating
ILB01686
The rising waveform of the coil current can be offset by having the external CR network give a slope to the rising waveform of the voltage input to the IC pin and setting a greater coil time constant to make the slope more gradual. This ensures stable shutter operation under severe power voltage fluctuations. Note : When offsetting the rising waveform of the coil current using the IC pin, assume the VB1 voltage that could be obtained in the absence of the capacitor to the IC pin as the supposed minimum voltage and observe and confirm the rising waveform of the coil current that flows at that voltage, then determine the capacitance of the capacitor so as to yield a time constant value that is greater than the one that could produce the waveform generated at the supposed minimum voltage. The rising waveform offsetting capacitor is unnecessary if the power voltage supplied is stable or in similar cases in which the rising waveform offsetting function is not required. (7) FC pin phase compensation capacitor The capacitor connected to the FC pin is used for phase compensation of constant-current control between OUT9 and OUT10. Test capacitor values between 0.0015F to 0.033F and choose a value that does not cause output oscillation problems. (In particular, when a large-inductance coil is used, it is necessary to provide a margin to a capacity value.) Moreover, since the constant-current control block is connected to PGND inside the IC, GND side of the FC pin capacitor must be connected to PGND. (Cautions for FC pin capacitor setting) For the capacitor value setting, set the value by which the output does not oscillate, observing an output voltage waveform. In circuit, the FC pin is connected to the output part of the constant-current control amplifier, and an output transistor drives because the potential of the FC pin rises. That is, since the initial state of the FC pin influences the output-drive timing, the potential of the FC pin is discharged (fast discharge circuit) inside the IC to a certain level before the shutter is ON, and the potential of the FC pin is charged (fast charge circuit) inside the IC to a certain level when a shutter is ON, so that the state of the FC pin during shutter driving can always be constant on this IC. This allows constant input/output delay time. However, since the time involved in charge/discharge in the above-mentioned circuit will be long if the capacitor value setting is too large, the amount of variation in charge/discharge delay time will increase with the variation of capacitor value (absolute value variation and temperature characteristic). Moreover, as another negative effect of setting a large value to the capacitor, it is considered that the rising inclination of coil current is moderate. Although the rising inclination of coil current originally depends on L component of the coil, if a large value is set to a capacitor and the capacitor time constant increases, the rising inclination of coil current depends on the value of the capacitor. For the reasons mentioned above, especially in the applications in which a high-speed shutter drive is required, both the value by which output does not oscillate and as small a value as possible (0.0015F to 0.033F) must be set to a capacitor which is connected to the FC pin.
No.7983-14/16
LB8658FN, LB8658PL
(8) Shutter drive "Regeneration" mode The "Regeneration" (MD1/2/3/IN1/2 = L/L/L/H/H) in shutter mode is used to slow the coil current decay. This mode makes coil current regenerative (Slow-Decay) within the output H-bridge by switching from "Close" (MD1/2/3/IN1/2 = L/L/L/L/H). (Refer to the following figure.) (1) "Close" (MD1/2/3/IN1/2 = L/L/L/L/H) (2) "Regeneration" (MD1/2/3/IN1/2 = L/L/L/H/H)
OUT10
OUT9
OUT10
OUT9
ILB01687
When shutter control is switched from "Stand-by" to "Close" ("Open"), the current rises to the target constant-current value from the state of output current 0 (zero). However, the output of the constant-current control amplifier inside the IC is in the full drive state during the above-mentioned "Regeneration" state. Therefore, when it is switched from "Regeneration" to "Close" ("Open"), the current falls to the target constant-current value from the state of full drive output. For that reason, to switch the shutter drive to "Close" ("Open") from "Regeneration" by constant-current control, it must be switched to "Stand-by" once before switching to "Close" ("Open"). The example of drive sequence is shown in the figure below.
Regeneration Stand-by
Stand-by
Open
Close
Open
IN2
IN1
ILB01688
(9) GND wiring and each power supply line capacitor Connect PGND (2 places) and SGND near the IC and insert a capacitor to the part nearest the power supply pin for each power supply.
No.7983-15/16
LB8658FN, LB8658PL
Specifications of any and all SANYO Semiconductor products described or contained herein stipulate the performance, characteristics, and functions of the described products in the independent state, and are not guarantees of the performance, characteristics, and functions of the described products as mounted in the customer's products or equipment. To verify symptoms and states that cannot be evaluated in an independent device, the customer should always evaluate and test devices mounted in the customer's products or equipment. SANYO Semiconductor Co., Ltd. strives to supply high-quality high-reliability products. However, any and all semiconductor products fail with some probability. It is possible that these probabilistic failures could give rise to accidents or events that could endanger human lives, that could give rise to smoke or fire, or that could cause damage to other property. When designing equipment, adopt safety measures so that these kinds of accidents or events cannot occur. Such measures include but are not limited to protective circuits and error prevention circuits for safe design, redundant design, and structural design. In the event that any or all SANYO Semiconductor products (including technical data,services) described or contained herein are controlled under any of applicable local export control laws and regulations, such products must not be exported without obtaining the export license from the authorities concerned in accordance with the above law. No part of this publication may be reproduced or transmitted in any form or by any means, electronic or mechanical, including photocopying and recording, or any information storage or retrieval system, or otherwise, without the prior written permission of SANYO Semiconductor Co., Ltd. Any and all information described or contained herein are subject to change without notice due to product/technology improvement, etc. When designing equipment, refer to the "Delivery Specification" for the SANYO Semiconductor product that you intend to use. Information (including circuit diagrams and circuit parameters) herein is for example only; it is not guaranteed for volume production. SANYO Semiconductor believes information herein is accurate and reliable, but no guarantees are made or implied regarding its use or any infringements of intellectual property rights or other rights of third parties.
This catalog provides information as of June, 2004. Specifications and information herein are subject to change without notice. PS No.7983-16/16

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