米6体育平台手机版

SGLS386F January 2009 – October 2014 DAC5670-SP

PRODUCTION DATA.

封装选项

请参考 PDF 数据表获取器件具体的封装图。

机械数据 (封装 | 引脚)

GEM|192

散热焊盘机械数据 (封装 | 引脚)

订购信息

sgls386f_oa

6 Pin Configuration and Functions

Ball Grid Array

192 Pins

Pin Functions

PIN		TYPE	DESCRIPTION
NAME	NO.	TYPE	DESCRIPTION
DACCLK_P	K14	I	External clock, sample clock for the DAC
DACCLK_N	L14	I	Complementary external clock, sample clock for the DAC
DLYCLK_P	A7	O	DDR-type data clock to data source
DLYCLK_N	A6	O	DDR-type data clock to data source complementary signal
DTCLK_P	A9	I	Input data toggling reference bit
DTCLK_N	A8	I	Input data toggling reference bit, complementary signal
DA_P[13]	J13	I	Port A data bit 13 (MSB)
DA_N[13]	K13	I	Port A data bit 13 complement (MSB)
DA_P[12]	J14	I	Port A data bit 12
DA_N[12]	H14	I	Port A data bit 12 complement
DA_P[11]	H13	I	Port A data bit 11
DA_N[11]	G13	I	Port A data bit 11 complement
DA_P[10]	G14	I	Port A data bit 10
DA_N[10]	F14	I	Port A data bit 10 complement
DA_P[9]	F13	I	Port A data bit 9
DA_N[9]	E13	I	Port A data bit 9 complement
DA_P[8]	E14	I	Port A data bit 8
DA_N[8]	D14	I	Port A data bit 8 complement
DA_P[7]	C12	I	Port A data bit 7
DA_N[7]	C11	I	Port A data bit 7 complement
DA_P[6]	D12	I	Port A data bit 6
DA_N[6]	D11	I	Port A data bit 6 complement
DA_P[5]	C13	I	Port A data bit 5
DA_N[5]	D13	I	Port A data bit 5 complement
DA_P[4]	B14	I	Port A data bit 4
DA_N[4]	C14	I	Port A data bit 4 complement
DA_P[3]	A13	I	Port A data bit 3
DA_N[3]	A12	I	Port A data bit 3 complement
DA_P[2]	A11	I	Port A data bit 2
DA_N[2]	A10	I	Port A data bit 2 complement
DA_P[1]	B10	I	Port A data bit 1
DA_N[1]	B11	I	Port A data bit 1 complement
DA_P[0]	B8	I	Port A data bit 0 (LSB)
DA_N[0]	B9	I	Port A data bit 0 complement (LSB)
DB_P[13]	B7		Port B data bit 13 (MSB)
DB_N[13]	B6	I	Port B data bit 13 complement (MSB)
DB_P[12]	A4	I	Port B data bit 12
DB_N[12]	A5	I	Port B data bit 12 complement
DB_P[11]	B4	I	Port B data bit 11
DB_N[11]	B5	I	Port B data bit 11 complement
DB_P[10]	A3	I	Port B data bit 10
DB_N[10]	A2	I	Port B data bit 10 complement
DB_P[9]	B1	I	Port B data bit 9
DB_N[9]	C1	I	Port B data bit 9 complement
DB_P[8]	C2	I	Port B data bit 8
DB_N[8]	D2	I	Port B data bit 8 complement
DB_P[7]	E1	I	Port B data bit 7
DB_N[7]	D1	I	Port B data bit 7 complement
DB_P[6]	D3	I	Port B data bit 6
DB_N[6]	D4	I	Port B data bit 6 complement
DB_P[5]	F2	I	Port B data bit 5
DB_N[5]	E2	I	Port B data bit 5 complement
DB_P[4]	J1	I	Port B data bit 4
DB_N[4]	H1	I	Port B data bit 4 complement
DB_P[3]	G1	I	Port B data bit 3
DB_N[3]	F1	I	Port B data bit 3 complement
DB_P[2]	J2	I	Port B data bit 2
DB_N[2]	K2	I	Port B data bit 2 complement
DB_P[1]	K1	I	Port B data bit 1
DB_N[1]	L1	I	Port B data bit 1 complement
DB_P[0]	M1	I	Port B data bit 0 (LSB)
DB_N[0]	N1	I	Port B data bit 0 complement (LSB)
IOUT_P	M7	O	DAC current output. Full scale when all input bits are set 1.
IOUT_N	M6	O	DAC complementary current output. Full scale when all input bits are 0.
RBIASOUT	P5	O	Rbias resistor current output
RBIASIN	P4	I	Rbias resistor sense input
CSCAP	P3	O	Current source bias voltage
CSCAP_IN	P2	I	Current source bias voltage sense input
REFIO	L3	O	Bandgap reference output
REFIO_IN	L4	I	Bandgap reference sense input
RESTART	M12	I	Resets DLL when high. Low for DLL operation. High for using external setup/hold timing.
LVDS_HTB	P9	I	DLYCLK_P/N control, LVDS mode when high, ht mode when low
INV_CLK	L12	I	Inverts the DLL target clocking relationship when high. Low for normal DLL operation. See DLL Usage.
SLEEP	P11	I	Active-high sleep
NORMAL	P13	I	High for {a0,b0,a1,b1,a2,b2, …} normal mode
A_ONLY	N10	I	High for {a0,a0,a1,a1,a2,a2, …} A_only mode
A_ONLY_INV	P12	I	High for {a0,-a0, a1,-a1,a2,-a2, ...} A_only_inv mode
A_ONLY_ZS	N13	I	High for {a0,0,a1,0,a2,0, …} A_only_zs mode

Pin Assignments (Top View)

	1	2	3	4	5	6	7	8	9	10	11	12	13	14
A		DB10_N	DB10_P	DB12_P	DB12_N	DLYCLK _N	DLYCLK _P	DTCLK_N	DTCLK_P	DA2_N	DA2_P	DA3_N	DA3_P
B	DB9_P	GND	GND	DB11_P	DB11_N	DB13_N	DB13_P	DA0_P	DA0_N	DA1_P	DA1_N	GND	GND	DA4_P
C	DB9_N	DB8_P	AVDD	AVDD	AVDD	GND	GND	GND	GND	AVDD	DA7_N	DA7_P	DA5_P	DA4_N
D	DB7_N	DB8_N	DB6_P	DB6_N	AVDD	AVDD	AVDD	AVDD	AVDD	AVDD	DA6_N	DA6_P	DA5_N	DA8_N
E	DB7_P	DB5_N	AVDD	AVDD	GND	GND	GND	GND	GND	GND	AVDD	AVDD	DA9_N	DA8_P
F	DB3_N	DB5_P	GND	AVDD	GND	GND	GND	GND	GND	GND	AVDD	GND	DA9_P	DA10_N
G	DB3_P	AVDD	GND	AVDD	GND	GND	AVDD	AVDD	GND	GND	AVDD	GND	DA11_N	DA10_P
H	DB4_N	AVDD	GND	AVDD	GND	GND	AVDD	AVDD	GND	GND	AVDD	GND	DA11_P	DA12_N
J	DB4_P	DB2_P	GND	AVDD	GND	GND	GND	GND	GND	GND	AVDD	GND	DA13_P	DA12_P
K	DB1_P	DB2_N	AVDD	AVDD	GND	GND	GND	GND	GND	GND	AVDD	AVDD	DA13_N	Dacclk_P
L	DB1_N	AVDD	REFIO	REFIO _IN	AVDD	AVDD	AVDD	AVDD	AVDD	AVDD	GND	Inv_clk	AVDD	Dacclk_N
M	DB0_P	GND	AVDD	AVDD	AVDD	IOUT_N	IOUT_P	GND	GND	AVDD	GND	Restart	GND
N	DB0_N	GND	GND	AVDD	GND	GND	GND	GND	GND	A_only			A_only_z	GND
P		CSCap _IN	CSCap	RBIAS_IN	RBIAS _OUT		GND	GND	LVDS _htb	AVDD	Sleep	A_only _inv	M _Normal

Pin Assignments (Bottom View)

	A	B	C	D	E	F	G	H	J	K	L	M	N	P
1		DB9_P	DB9_N	DB7_N	DB7_P	DB3_N	DB3_P	DB4_N	DB4_P	DB1_P	DB1_N	DB0_P	DB0_N
2	DB10_N	GND	DB8_P	DB8_N	DB5_N	DB5_P	AVDD	AVDD	DB2_P	DB2_N	AVDD	GND	GND	CSCap _IN
3	DB10_P	GND	AVDD	DB6_P	AVDD	GND	GND	GND	GND	AVDD	REFIO	AVDD	GND	CSCap
4	DB12_P	DB11_P	AVDD	DB6_N	AVDD	AVDD	AVDD	AVDD	AVDD	AVDD	REFIO _IN	AVDD	AVDD	RBIAS_IN
5	DB12_N	DB11_N	AVDD	AVDD	GND	GND	GND	GND	GND	GND	AVDD	AVDD	GND	RBIAS _OUT
6	DLYCLK _N	DB13_N	GND	AVDD	GND	GND	GND	GND	GND	GND	AVDD	IOUT_N	GND
7	DLYCLK _P	DB13_P	GND	AVDD	GND	GND	AVDD	AVDD	GND	GND	AVDD	IOUT_P	GND	GND
8	DTCLK_N	DA0_P	GND	AVDD	GND	GND	AVDD	AVDD	GND	GND	AVDD	GND	GND	GND
9	DTCLK_P	DA0_N	GND	AVDD	GND	GND	GND	GND	GND	GND	AVDD	GND	GND	LVDS_htb
10	DA2_N	DA1_P	AVDD	AVDD	GND	GND	GND	GND	GND	GND	AVDD	AVDD	A_only	AVDD
11	DA2_P	DA1_N	DA7_N	DA6_N	AVDD	AVDD	AVDD	AVDD	AVDD	AVDD	GND	GND		Sleep
12	DA3_N	GND	DA7_P	DA6_P	AVDD	GND	GND	GND	GND	AVDD	Inv_clk	Restart		A_only _inv
13	DA3_P	GND	DA5_P	DA5_N	DA9_N	DA9_P	DA11_N	DA11_P	DA13_P	DA13_N	AVDD	GND	A_only_z	M _Normal
14		DA4_P	DA4_N	DA8_N	DA8_P	DA10_N	DA10_P	DA12_N	DA12_P	Dacclk_P	Dacclk_N		GND