型号
  • 型号
  • 关键词
首页 > 器件类别 > 模拟混合信号IC > 消费电路

U2510B-M

AM/FM, AUDIO SINGLE CHIP RECEIVER, PDIP28

器件类别:模拟混合信号IC    消费电路   

厂商名称:Atmel (Microchip)

下载文档
参数 预览 参数对比
器件参数
参数名称
属性值
是否Rohs认证
不符合
厂商名称
Atmel (Microchip)
零件包装代码
DIP
包装说明
SDIP-28
针数
28
Reach Compliance Code
unknow
Samacsys Descripti
IC MIXER AUDIO AMP AM/FM 28SDIP
商用集成电路类型
AUDIO SINGLE CHIP RECEIVER
解调类型
AM/FM
谐波失真
3%
JESD-30 代码
R-PDIP-T28
JESD-609代码
e0
长度
27.3 mm
功能数量
1
端子数量
28
最高工作温度
75 °C
最低工作温度
-20 °C
输出电压标称(AM)
70 mV
标称输出电压(调频)
85 mV
封装主体材料
PLASTIC/EPOXY
封装代码
SDIP
封装形状
RECTANGULAR
封装形式
IN-LINE, SHRINK PITCH
峰值回流温度(摄氏度)
NOT SPECIFIED
认证状态
Not Qualified
座面最大高度
5.7 mm
最大供电电压 (Vsup)
9 V
最小供电电压 (Vsup)
2.5 V
表面贴装
NO
技术
BIPOLAR
温度等级
COMMERCIAL EXTENDED
端子面层
Tin/Lead (Sn/Pb)
端子形式
THROUGH-HOLE
端子节距
1.778 mm
端子位置
DUAL
处于峰值回流温度下的最长时间
NOT SPECIFIED
宽度
10.16 mm
文档预览
U2510B
All-Band AM/FM Receiver and Audio Amplifier
Description
The U2510B is an integrated bipolar one-chip AM/FM
radio circuit. It contains an FM front end with
preamplifier, FM IF and demodulator, a complete AM
receiver, an AF amplifier and a mode switch for AM, FM
and tape. This circuit is designed for clock radios and
portable radio-cassette recorders.
Features
D
Superior FM strong signal behavior by using RF AGC
D
Soft mute and HCC for decreasing interstation noise
in FM mode
D
Excellent AFC performance (level controlled, both
polarities available)
D
Level indicator (LED drive) for AM and FM
D
DC mode control: AM, FM and tape
D
Wide supply-voltage range and low quiescent current
D
High AF output power: 1 W
D
Electronic volume control
D
Electronic AF bandwidth control (treble and high cut)
D
Output stage for headphone and speaker drive
Block Diagram
FM RF
tank
FM ant.
V
S
9
8
7
AFC
FM RF
BPE
AGC
12
FM
front end
FM
AGC
AM
front end
RF AGC
Voltage stab.
and
mode control
15
AM/FM
IF
AGC
AM
AGC
AFC
control
AM IF
amp. and
detect.
IF
Level
indic.
AF preamp.
Volume
Mute
HCC
21
13
20
19
1 22
18
FM IF
amp.
FM
discr.
Power
amp.
25
23
24
4
6
14
16
2
26
28
27
3
FM osc.
tank
IF BPE
(Replaceable)
11
AM
ant.
AM osc.
tank
10
5
V
Ref
AM
S
2
V
S
AFC mode
LED
V
S
Treble
Vol
13912
FM Tape
Figure 1. Block diagram
Rev. A3, 23-Feb-01
1 (15)
U2510B
Order Information
Extended Type Number
U2510B-M
U2510B-M__T
Package
SDIP28
SDIP28
Pin
5
28
AF-GND
6
Remarks
V
S
< 6 V supply voltage
Symbol
AMOsc
FM–AFC
Function
AM oscillator tank circuit input, recommended
load impedance approximately 2.5 kW
AFC diode connection, coupling capacitor
(C
19
) determines the AFC characteristic
(holding range and slope)
FM oscillator tank circuit input, recommended
load impedance approximately 3 kW
Regulated voltage output (2.4 V)
FM RF tank circuit connection, recommended
load impedance approximately 3 kW
AM RF tank circuit connection, recommended
load impedance approximately 20 kW
FM AGC voltage output, time constant (C
20
).
Loading this pin by a resistor (to GND) will
increase the FM AGC threshold, grounding
this pin will switch off the FM AGC function
FM RF input (common-base preamplifier
transistor), recommended (RF) source
impedance approximately 100
W
FM front-end ground
AM/FM IF output
(collector output of the IF preamplifier)
Mode control input:
Pin
| Function
open
| FM
Ground
| AM
V
S
(R
4
= 10 kW) | Tape
AM IF input, input impedance = 3.1 kW
FM IF input, input impedance = 330
W
Treble control voltage input
Level indicator output
(open-collector output, LED drive)
IF ground
AFC function control input:
Pin
| Function
open
| AFC off
Ground
| f
OSC
> f
in
V
S
| f
OSC
< f
in
AGC/AFC voltage, time constant adjust (C
10
),
input impedance approximately 42 kW
AM/FM detector output, the load capacitor
(C
11
) in conjunction with the detector output
resistance (7.5 kW) determines the (FM)
deemphasis as well as the (modulation)
frequency response of the AM detector
Audio amplifier input, input resistance
approximately 100 kW, coupling capacitor
(C
9
) determines the low frequency response
Ripple filter connection. Load capacitance
(C
12
) determines the frequency response of the
supply-voltage ripple rejection
Supply voltage input
Audio amplifier output
Ground of the audio power stage
Pin Description
Mute
FM-discr
1
2
27
AFout
7
8
9
10
11
FMOsc
V
Ref
FMtank
AMtank
FM-AGC
CF
3
26
V
S
Ripple in
Vol ctrl in
4
25
AMOsc
5
24
AFin
12
FMin
FM-AFC
FMOsc
6
23
AM/FM detect
7
22
V
AGC/AFC
13
14
15
V
Ref
FMtank
8
21
AFC switch
IF-GND
FE-GND
AM/FM
IFout
Mode ctrl
switch
9
20
AMtank
10
19
LED drive
FM-AGC
FMin
11
18
V
Treble in
FM-IFin
16
17
18
19
20
21
AM-IFin
FM-IFin
V
Treble in
LED drive
IF-GND
AFC switch
12
17
FE-GND
AM/FM
IFout
13
16
AM-IFin
Mode ctrl
switch
22
23
V
AGC/AFC
AM/FM
detect
14
14812
15
Figure 2. Pinning
Pin
1
Symbol
Mute
Function
Mute voltage output, time constant (C
23
),
mute depth and threshold adjustable by load
resistance (R
3
)
FM discriminator filter connection, ceramic
resonator or equivalent LC-circuit
Audio negative feedback input. Blocking
capacitor (C
8
) determines the audio amplifiers
low-end cut-off frequency
Input for volume control voltage
24
AFin
2
3
FM-discr
CF
25
Ripple in
4
Vol ctrl in
26
27
28
V
S
AFout
AF-GND
2 (15)
Rev. A3, 23-Feb-01
U2510B
Terminal Voltages
Test circuit: V
in
= 0
Voltage/V
Pin
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
Mute voltage (R
3
= 0)
FM discriminator
Negative feedback
Volume control input (S
4
= A)
AM oscillator
FM AFC
FM oscillator
V
Ref
FM RF tank
AM input
FM AGC
FM input
Front end ground
AM/FM IF output
Mode control switch
AM IF input
FM IF input
Treble control input (S
5
= A)
LED
IF ground
AFC switch (S
3
= off)
AGC (AM)/AFC (FM)
Detector output
AF input
Ripple filter
Supply voltage
AF output
AF ground
Symbol
V
1
V
2
V
3
V
4
V
5
V
6
V
7
V
8
V
9
V
10
V
11
V
12
V
13
V
14
V
15
V
16
V
17
V
18
V
19
V
20
V
21
V
22
V
23
V
24
V
25
V
26
V
27
V
28
AM
1.2
2.4
2.4
2.4
2.4
2.9
0
0
2.4
0
1.2
1.5
1.5
1.5
2.7
3.0
1.2
0
V
S
= 3 V
FM
1.6
1.0
1.2
2.4
1.9
2.4
2.4
2.4
0
1.4
2.7
0.7
2.4
0
1.2
1.2
1.2
1.5
2.7
3.0
1.2
0
TAPE
1.2
2.4
2.4
2.4
2.9
2.4
0
1.2
1.5
2.7
3.0
1.2
0
AM
2.6
2.4
2.4
2.4
5.9
0
0
2.4
0
1.2
1.5
1.5
1.5
5.3
6.0
2.6
0
V
S
= 6 V
FM
1.6
1.0
2.6
2.4
1.9
2.4
2.4
2.4
2.4
0
1.4
5.7
0.7
2.4
0
1.2
1.2
1.2
1.5
5.3
6.0
2.6
0
TAPE
2.6
2.4
2.4
5.7
2.4
0
1.2
1.5
5.3
6.0
2.6
0
Rev. A3, 23-Feb-01
3 (15)
U2510B
Absolute Maximum Ratings
Parameters
Supply voltage
Power dissipation
Ambient temperature range
Symbol
V
S
P
tot
T
amb
Value
13
900
–20 to +75
Unit
V
mW
°C
Electrical Characteristics
V
S
= 6 V, T
amb
= 25°C, test circuit (figure 16), unless otherwise specified
Parameters
Supply voltage range
Oscillator stop voltage
Operating temperature range
Supply quiescent current
Test Conditions / Pins
Symbol
V
S
V
S
T
Min.
2.5
2.2
–20
Typ.
Max.
9*
+75
Unit
V
V
°C
mA
mA
mA
V
V
i1
= V
i2
= V
4
= 0;
AM (S
2
= AM)
I
S
4.0
FM (S
2
= FM)
I
S
6.5
TAPE (S
2
= Tape)
I
S
2.2
Regulated voltage
Pin 8
V
Ref
2.4
Audio amplifier
V
i3
(Pin 24), test point: V
o
(Pin 27) f = 1 kHz
AF measuring range: 30 Hz to 20 kHz, S
2
= Tape, S
4
= A, S
5
= A
Input resistance
Pin 24
R
j
100
Closed loop voltage gain
GV
af1
= 20 log (V
o
/V
i3
)
V
i3
= 10 mV
GV
af1
40
Output voltage
V
i3
= 100 mV, S
4
= B
V
o
0.7
High–end cut-off frequency
f
c
(–3 dB)
f
c
13
S
5
= B
f
c
0.8
Supply-voltage rejection ratio SVRR = 20 log (V
hum
/V
o
)
V
hum
= 200 mV,
f
hum
= 200 Hz, S
4
= B
SVRR
32
Noise voltage
S
4
= B, V
i3
= 0
V
n
300
AF output power
THD = 10 %, R
L
= 8
W
V
S
= 4.5 V
P
o
225
V
S
= 6.0 V
420
P
o
400
V
S
= 9.0 V
P
o
1000
Distortion
P
o
= 50 mW, R
L
= 8
W
d
0.6
FM section,
V
i2
= 60 dBmV, f
i2
= 98 MHz, f
m
= 1 kHz, dev. =
"
22.5 kHz, f
iIF
= 10.7 MHz,
AF measuring range: 300 Hz to 20 kHz, S
2
= FM, S
1
= A, S
6
= B, test point: V
D
(Pin 23)
FM front-end voltage gain
GV
FM
= 20 log (V
iIF
/ V
i2
)
S
1
= B, V
i2
= 40 dbmV
GV
FM
30
Recovered audio voltage
Pin 23
VD
af
85
Detector output resistance
Pin 23
R
Do
7.5
Detector output distortion
dev. =
"
75 kHz
V
i2
= 60 dBmV
THD
0.5
V
i2
= 105 dBmV
THD
0.8
*
U2510B-M__T: max. 6 V
kW
dB
mV
kHz
kHz
3
1000
dB
mV
mW
mW
mW
%
dB
mV
kW
%
%
4 (15)
Rev. A3, 23-Feb-01
U2510B
Electrical Characteristics (continued)
V
S
= 6 V, T
amb
= 25°C, test circuit (figure 16), unless otherwise specified
Parameters
AM rejection ratio
RF sensitivity
Limiting threshold (-3 dB)
Mute voltage
Test Conditions / Pins
m = 30%
(S+N)/N = 26 dB
(S+N)/N = 46 dB
Test point: Mute
V
i2
= 0
V
i2
= 60 dBmV
Referred to V
0
at V
i2
= 0
S
6
= A
S
6
= C
f
OSC
> f
in
, S
3
= A, S
6
= A
V
i2
x
10 dBmV
V
i2
= 20 dBmV
V
i2
= 80 dBmV
Symbol
AM
RR
V
i2
V
i2
V
i2
V
mute
V
mute
MD
MD
Min.
Typ.
25
9
22
3
1.8
0.4
26
20
no AFC
"
180
"
220
5.5
180
Max.
Unit
dB
dBmV
dBmV
dBmV
V
V
dB
dB
Mute depth
AFC holding range
FHR
FHR
FHR
LED current
I
LED
Oscillator voltage
eZ
load
= 2.5 kW
Pin 7
V
OSC
AM section
V
i1
= 60 dBmV, f
i1
= 1.6 MHz, f
m
= 1 kHz, m = 30%, f
iIF
= 455 kHz,
AF measuring range: 300 Hz to 20 kHz, (S
2
= AM, S
1
= B, test point: V
D
)
AM front end voltage gain
GV
AM
= 20 log (V
iIF
/V
i1
)
GV
AM
V
i1
= 20 dBmV, S
1
= A
Recovered audio voltage
V
D af1
Detector output resistance
Pin 23
R
Do
Detector output distortion
V
i1
= 60 dBmV
THD
V
i1
= 105 dBmV
THD
RF sensitivity
(S+N)/N= 10 dB
V
i1
(S+N)/N= 26 dB
V
i1
V
i1
(S+N)/N= 46 dB
AGC figure of merit referred
V
i1
= 105 dBmV, voltage
to V
D af
drop (V
D af
) = –10 dB
FOM
IF input resistance
Pin 16
Z
i
LED current
I
LED
Oscillator voltage
Pin 5
V
OSC
kHz
kHz
mA
mV
25
70
7.5
1
3
0
16
35
100
3.1
5.5
160
dB
mV
kW
%
%
dBmV
dBmV
dBmV
dB
kW
mA
mV
Rev. A3, 23-Feb-01
5 (15)
查看更多>
参数对比
与U2510B-M相近的元器件有:U2510B-MT、U2510B。描述及对比如下:
型号 U2510B-M U2510B-MT U2510B
描述 AM/FM, AUDIO SINGLE CHIP RECEIVER, PDIP28 AM/FM, AUDIO SINGLE CHIP RECEIVER, PDIP28 Audio Single Chip Receiver, AM/FM, PDIP28, SDIP-28
功能数量 1 1 1
端子数量 28 28 28
端子形式 THROUGH-HOLE THROUGH-HOLE THROUGH-HOLE
端子位置 DUAL DUAL DUAL
包装说明 SDIP-28 - SDIP-28
Reach Compliance Code unknow - unknown
商用集成电路类型 AUDIO SINGLE CHIP RECEIVER - AUDIO SINGLE CHIP RECEIVER
解调类型 AM/FM - AM/FM
谐波失真 3% 3 % -
JESD-30 代码 R-PDIP-T28 - R-PDIP-T28
封装主体材料 PLASTIC/EPOXY - PLASTIC/EPOXY
封装形状 RECTANGULAR - RECTANGULAR
封装形式 IN-LINE, SHRINK PITCH - IN-LINE
认证状态 Not Qualified - Not Qualified
表面贴装 NO - NO
温度等级 COMMERCIAL EXTENDED COMMERCIAL EXTENDED -
电路系统设计制作过程和需要注意的一些问题
电子电路设计涉及的东西很多。首先是你需要根据具体的需要和应用去设计电路图。这是整个设计中最重要的一...
Jacktang 模拟与混合信号
wince的nand分区做u盘被pc识别问题?
各位大侠好,小弟想请教个问题。就是我现在想把wince的nand的fat分区做为u盘能在pc下显示出...
love3song WindowsCE
(转)树莓派与android,可以装吗?
在销售树莓派的时候,经常有人问我支不支持android/安卓系统。 可以明确的说,是支持的。 ) ...
mayue 单片机
新编电气控制与PLC应用技术
《新编电气控制与PLC应用技术》包含了将近50个实例,涵盖了后期处理中的大部分案例类型。本书中的案...
arui1999 下载中心专版
串口调试助手数据处理问题
这是我在串口调试助手收到的16进制数据,每4个字节是一个数,需要转换成10进制数,我不知道怎...
tanzhiying 微控制器 MCU
DCDC反向预充
有做过DCDC反向预充的吗,拓扑如上,低压侧(右边)反向给高压侧(左边)母线电容充电。技术方案...
爱干饭 汽车电子
热门器件
热门资源推荐
双电极电弧焊系统的非线性鲁棒自适应控制 2007亚太机器人大赛【中国VS韩国】.rar ARM9为平台的智能综合电子测试仪的研究 不好意思刚才没上传文件 ZigBee-Wi-Fi无线网关 基于DSP和ARM的新型电力谐波监测仪设计 基于神经网络信息融合的智能机器人 传感器与检测技术 (胡向东) 实现简单的工资管理。比较简单。希望对大家有用 LPC2214看门狗程序源代码,是产品上已经应用的,放心使用.
关于高通滤波器的截止频率 智能音箱引爆“懒人经济” AWE2019展看点 运放或者电压比较器输入信号电压大小与供电电压关系 求助AD9901鉴相问题 求助一下这张图稍微详细一点的解析 这个电路简单的运作原理? 【转帖】PCB板产生焊接缺陷的原因 请教高手控制电路调试问题 电子工程师必知必会的几点疑惑 转:推荐新人的学习方法和书籍
简洁的过零调功器电路设计与分析 单稳态控制电路设计与分析 光控电路设计与分析 永不缺相启动运行的电动机控制电路 IGBT模块通过控制门极阻断过电流 MT3608构成3.7V转12V的升压电路图 运算放大器IC741的基本工作原理及在电路中的实现方式 比较常见的功率整流器和滤波电路 一个简单的红外耳机电路 基于TDA1554的立体声放大器电路
器件捷径:
S0 S1 S2 S3 S4 S5 S6 S7 S8 S9 SA SB SC SD SE SF SG SH SI SJ SK SL SM SN SO SP SQ SR SS ST SU SV SW SX SY SZ T0 T1 T2 T3 T4 T5 T6 T7 T8 T9 TA TB TC TD TE TF TG TH TI TJ TK TL TM TN TO TP TQ TR TS TT TU TV TW TX TY TZ U0 U1 U2 U3 U4 U6 U7 U8 UA UB UC UD UE UF UG UH UI UJ UK UL UM UN UP UQ UR US UT UU UV UW UX UZ V0 V1 V2 V3 V4 V5 V6 V7 V8 V9 VA VB VC VD VE VF VG VH VI VJ VK VL VM VN VO VP VQ VR VS VT VU VV VW VX VY VZ W0 W1 W2 W3 W4 W5 W6 W7 W8 W9 WA WB WC WD WE WF WG WH WI WJ WK WL WM WN WO WP WR WS WT WU WV WW WY X0 X1 X2 X3 X4 X5 X7 X8 X9 XA XB XC XD XE XF XG XH XK XL XM XN XO XP XQ XR XS XT XU XV XW XX XY XZ Y0 Y1 Y2 Y4 Y5 Y6 Y9 YA YB YC YD YE YF YG YH YK YL YM YN YP YQ YR YS YT YX Z0 Z1 Z2 Z3 Z4 Z5 Z6 Z8 ZA ZB ZC ZD ZE ZF ZG ZH ZJ ZL ZM ZN ZP ZR ZS ZT ZU ZV ZW ZX ZY
需要登录后才可以下载。
登录取消